Bachelor’s Degree in Mechanical Engineering
General
The degrees lead to a university of applied sciences Bachelor’s degree in Engineering allowing graduates to use the title Engineer (UAS). The studies are worth 240 credits and take approx.4 years to complete.
The degree focuses on industrial production methods, machines and processes. It provides a foundation for employment in design, operation, quality and material management functions. The hands-on training focuses on production processes management from the start of the process until the product is ready.
Design software for use in product design to virtual modelling and practical implementation and practice environments in the form of automation, production and testing laboratories equipped with a variety of machinery and equipment support studies.
Mining Engineering major courses are offered jointly with the Lapland University of Applied Sciences. The studies provide a cross-section of different raw materials and processes in mining throughout the life cycle of the mine, and they cover mining permit procedures, social and environmental impacts, as well as occupational safety.
Annual Themes – Study Progress Description
1st year Learning for basic engineering competence.
The students will perceive and understand essential mechanical and production engineering elements on which production operations are based, as well as acquiring the knowledge and skills to control such elements.
2nd year Deeper knowledge for automation expertise.
Students will be proficient in techniques and the technology to improve production efficiency, usability and reliability to ensure economically viable operations as well as developing their communication and teamwork skills.
3rd year expert Specialisation for production expertise.
Students will gain specialised expertise in a particular area and will expand their competence in controlling and developing production.
4th year Finalising expertise to become a fully-fledged engineer.
Students will apply their acquired knowledge and skills and broaden their horizons in working life.
Generic Competences
LEARNING COMPETENCE
-is able to evaluate and develop one’s competence and learning methods
-is able to retrieve and analyze information and evaluate it critically
-is capable of taking responsibility for collaborative learning and sharing knowledge in teams
ETHICAL COMPETENCE
-is able to take responsibility for one’s own actions and for the consequences of these actions
-is able to work according to the ethical principles of the subject field
-is able to take other people into account
-is able to apply the principles of equality
-is able to apply the principles of sustainable development
-is able to wield influence in society using acquired skills and basing all activity on ethical values
WORKING COMMUNITY COMPETENCE
-is able to operate as a member of a work community
-is able to operate in communicative and interactive situations in working life
-is able to utilize information and communications technology in one’s subject field
-knows the working life in one’s subject field and is able to create personal contacts in working life and to operate in professional networks
-is capable of decision making in unpredicted situations
-is able to apply the principles of organizational management and leadership in working life and has abilities for managerial tasks
-possesses entrepreneurial skills
INNOVATION COMPETENCE
-is able to conduct research, development and innovation projects applying the existing knowledge and methods of the field
-is able to work in projects
-is capable of creative problem solving and development of working methods
-is able to find customer-oriented, sustainable and profitable solutions
INTERNATIONALIZATION COMPETENCE
-possesses communicative competence necessary for one’s work and for professional development in the subject field
-is able to collaborate in a multicultural environment
-understands the effects of and opportunities for internationalization development in one’s own field
Description of Competences
Basic mechanical engineering competence
• are able to make use of mathematics and physics to describe mechanical engineering phenomena and solve problems
• know the most common components and elements used in mechanical engineering and understand the operating principles of the most common machines
• are familiar with the basic measurements of mechanical engineering
• are familiar with the basics of using energy technology and energy
Design competence
• are proficient in the basics of technical documentation and are able to use 3D modelling in design work
• are familiar with the most common structural materials and their properties
• understand the importance of standardization in product design and manufacturing
• are able to take into account the entire product life cycle in design work
• understand the importance of teamwork in product design and can work as members of an international design/planning organization
Manufacturing engineering competence
• know the methods, devices and opportunities of manufacturing technology • understand the principles of production systems and automation and their impact on product structure
• are familiar with the basics of logistics
Machine safety competence
• Know machinery directive requirements for design work
• can design safe and easy-to-use devices and structures
Business competence
• are familiar with the requirements of profitable business operations
• know how to make a simple investment calculations
Competence in mathematics and natural sciences
•are able to use mathematics and physics in problem solving
•are able to work systematically and logically
•are familiar with the impacts of the laws of nature on how devices and structures function
Automation competence
•are familiar with basic machine automation systems, components and equipment
•can design and build automated processes and structures
Production competence
•are familiar with the basic functions of industrial production
•can plan and control production
•are familiar with fundamental industrial manufacturing procedures, systems and equipment
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
Students will be able to use CAD's 3-D applications for product modelling purposes.
Content
An introduction to 3-dimensional modelling
Visualisation
Producing drawings
Compositions
Features modelling
Sheet metal products
The Mathematics of Modelling
3D printing
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Prerequisites
Technical Drawing, CAD design
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 25.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will be able to use CAD's 3-D applications for product modelling purposes.
Content
An introduction to 3-dimensional modelling
Visualisation
Producing drawings
Compositions
Features modelling
Sheet metal products
The Mathematics of Modelling
3D printing
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Prerequisites
Technical Drawing, CAD design
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
Students will know the basics of thermal engineering, energy sources, production and use and saving energy.
Content
Content of studies
• Energy in industry and society
• The production of energy
• Fuels and combustion
• Water vapor
• Energy/heat transfer technologies
• Electricity distribution network
• The sensible use of energy
Materials
Material available in the course
Course literature to support studying, e.g.
Jarmo Perttula - Energiatekniikka
Mikko Hupa et. al. - Poltto ja palaminen
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students possess a versatile understanding of energy transfer chain operations and how energy can be used sustainably.
Assessment criteria, good (3)
The students are able to carry out heat transfer calculations and understand related practical procedures and technical solutions.
Assessment criteria, satisfactory (1)
The students are familiar with the principles of heat transfer and have some perception of global energy supplies. They know the electricity production process and how it works.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
30.09.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will know the basics of thermal engineering, energy sources, production and use and saving energy.
Content
Content of studies
• Energy in industry and society
• The production of energy
• Fuels and combustion
• Water vapor
• Energy/heat transfer technologies
• Electricity distribution network
• The sensible use of energy
Materials
Material available in the course
Course literature to support studying, e.g.
Jarmo Perttula - Energiatekniikka
Mikko Hupa et. al. - Poltto ja palaminen
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students possess a versatile understanding of energy transfer chain operations and how energy can be used sustainably.
Assessment criteria, good (3)
The students are able to carry out heat transfer calculations and understand related practical procedures and technical solutions.
Assessment criteria, satisfactory (1)
The students are familiar with the principles of heat transfer and have some perception of global energy supplies. They know the electricity production process and how it works.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
30.09.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT23SKKT23S
Objective
Mechanical and production engineering students will be able to read professional texts linked to their area of engineering and write technical documents.
The student understands the requirements and effects of global environment in the field of mechanical and production engineering (getting familiar with ISO standards in English).
The student understands the central concepts and terminology within the field of mechanical and production engineering.
The student is able to communicate in English in an international working life.
Content
Technical English as a tool
Applying for work
Structural features of technical English
Building vocabulary for own field of engineering (ISO standards)
Developing reading techniques
Telephoning
Presentation of a company, product, manual or service
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt their language to the needs of working life when writing and speaking using the vocabulary of their field, topics related to current content and versatile sentence structures. The students are proficient in the fundamental terminology of their field and can write about and discuss themes concerning their field of study using the correct terminology. The students' pronunciation and articulation is clear.
Assessment criteria, good (3)
The students are able to produce sentences of basic structure in everyday and working life when writing and speaking. The students recognise and are able to use the fundamental terminology of their field and their pronunciation and articulation is mainly clear, though errors occur.
Assessment criteria, satisfactory (1)
The students are able to produce sentences of simple structure in everyday and working life when writing and speaking though pronunciation and grammar errors occur. The students recognise the fundamental terminology of their field.
Prerequisites
European language assessment framework level B2
Further information
JABÄ 4.1.2023
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKM23SKKM23S
Objective
Mechanical and production engineering students will be able to read professional texts linked to their area of engineering and write technical documents.
The student understands the requirements and effects of global environment in the field of mechanical and production engineering (getting familiar with ISO standards in English).
The student understands the central concepts and terminology within the field of mechanical and production engineering.
The student is able to communicate in English in an international working life.
Content
Technical English as a tool
Applying for work
Structural features of technical English
Building vocabulary for own field of engineering (ISO standards)
Developing reading techniques
Telephoning
Presentation of a company, product, manual or service
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt their language to the needs of working life when writing and speaking using the vocabulary of their field, topics related to current content and versatile sentence structures. The students are proficient in the fundamental terminology of their field and can write about and discuss themes concerning their field of study using the correct terminology. The students' pronunciation and articulation is clear.
Assessment criteria, good (3)
The students are able to produce sentences of basic structure in everyday and working life when writing and speaking. The students recognise and are able to use the fundamental terminology of their field and their pronunciation and articulation is mainly clear, though errors occur.
Assessment criteria, satisfactory (1)
The students are able to produce sentences of simple structure in everyday and working life when writing and speaking though pronunciation and grammar errors occur. The students recognise the fundamental terminology of their field.
Prerequisites
European language assessment framework level B2
Further information
JABÄ 4.1.2023
Enrollment
19.08.2024 - 22.09.2024
Timing
30.09.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Business
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Miia Rönkkö
Groups
-
VAPVAL2024VAPVAL2024
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SKKT22S
Objective
Students will know the principles of the FEM and FEM calculations using application programmes.
Content
Principles of the Finite Element Method.
The stages of FEM calculation.
Exercises
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available calculation parameters for the situation. They are able to analyse and simulate structures and to develop systematic methods and calculation instructions for FEM analysis.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply FEM calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students know the basic of FEM and can use analysis software to analyse simple structures. They are aware of the significance of the software's limitations and can verify results produced by the Software.
Prerequisites
Strength of Materials
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will know the principles of the FEM and FEM calculations using application programmes.
Content
Principles of the Finite Element Method.
The stages of FEM calculation.
Exercises
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available calculation parameters for the situation. They are able to analyse and simulate structures and to develop systematic methods and calculation instructions for FEM analysis.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply FEM calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students know the basic of FEM and can use analysis software to analyse simple structures. They are aware of the significance of the software's limitations and can verify results produced by the Software.
Prerequisites
Strength of Materials
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 14.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will become conversant with basic physics through experimentation. The course also covers measurement technology and written reporting.
Content
Completion of laboratory work and written reporting.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems in hand and produce alternative methods of solving them.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems in hand. They are able to divide problem solving into suitable parts.
Assessment criteria, satisfactory (1)
All measurements are conducted according to the instructions. The students are able to find suitable equations in the solutions to problems.
Further information
TKI- pisteet 3
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Seats
0 - 16
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT24SKKT24S
Objective
Students will become conversant with basic physics through experimentation. The course also covers measurement technology and written reporting.
Content
Completion of laboratory work and written reporting.
Location and time
Lukujärjestyksen mukaan
Materials
We will announce it during the course.
Teaching methods
Luento + laboratorioharjoitukset
Exam schedules
Keväällä on yksi rästikertaa, syksyllä kaksi.
Completion alternatives
Kurssin suoritukseen kuuluu kaksi pienempää ja 8 laajempaa laboratoriotyötä. Pienemmistä töistä laaditaan raportit valmiille pohjille. Laajemmista töistä tehdään työselostukset, jotka arvioidaan asteikolla 1 - 5. Jokainen opiskelija palauttaa molemmat raportit sekä kaksi työselsotusta, yhden keväälläl ja yhden syksyllä.
Student workload
Osallistuminen 10 laboratorioharjoitukseen on pakollista. Yksi opetuskerta on 3*45 minuuttia. Tämän lisäksi opiskelija laatii kaksi raporttia ja kaksi työselostusta.
Content scheduling
Syksyllä 7 kolmen oppitunnin kokonaisuutta, joista yksi on rästikerta. Keväällä 6 kolmen oppitunnin kokonaisutta, joista kaksi on rästikertoja.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems in hand and produce alternative methods of solving them.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems in hand. They are able to divide problem solving into suitable parts.
Assessment criteria, satisfactory (1)
All measurements are conducted according to the instructions. The students are able to find suitable equations in the solutions to problems.
Assessment methods and criteria
Raportit arvostellaan asteikolla hyväksytty / hylätty. Jokainen laatii lisäksi kaksi työselostusta, jotka arvioidaan asteikolla 0 - 5.
Assessment criteria, fail (0)
Opiskelija ei osallistu työskentelyyn ryhmän mukana. Työselostus ei vastaa annettuja ohjeita.
Assessment criteria, excellent (5)
Opiskelija osaa suunnitella ja toteuttaa laboraatiotyöt huolellisesti. Opiskelija osaa analysoida laboraatiotöiden tuloksia matemaattisesti oikeaoppisesti. Opiskelija kykenee analysoimaan työn merkitystä ja työn toteutuksen onnistumiseen vaikuttaneita asioita. Opiskelija osaa laatia rakenteeltaan ja kieliasultaan lähes virheettömiä raportteja.
Toteutuksen arviointikriteerit, hyvä (3-4)
Opiskelija osaa suunnitella ja toteuttaa laboraatiotyöt asiallisesti. Opiskelija osaa analysoida laboraatiotöiden tuloksia matemaattisesti oikeaoppisesti ja lähes virheettä. Opiskelija kykenee analysoimaan työn merkitykseen tai työn toteutuksen onnistumiseen liittyviä asioita. Opiskelija osaa laatia rakenteeltaan ja kieliasultaan asiallisia raportteja.
Assessment criteria, satisfactory (1)
Opiskelija osaa suunnitella ja toteuttaa laboraatiotyöt ohjeiden mukaisesti, mutta tarvitsee opastusta. Opiskelija osaa analysoida laboraatiotöiden keskeiset tuloksia matemaattisesti pääosin virheettä, mutta tarvitsee tässä mahdollisesti tukea. Opiskelija kykenee analysoimaan vain osittain työn merkitykseen tai työn toteutuksen onnistumiseen liittyviä asioita. Opiskelija osaa laatia raportteja, mutta niissä voi olla rakenteeltaan ja kieliasultaan selkeitä puutteita
Further information
TKI- pisteet 3
Enrollment
01.01.2025 - 30.11.2025
Timing
01.01.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Virtual portion
2 op
Mode of delivery
Distance learning
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Scheduling groups
- KAMK Avoin AMK 1 (Size: 50. Open UAS: 50.)
Groups
-
AAMKAvoin AMK
Small groups
- KAMK Open UAS 1
Objective
Tavoittena on, että hallitset fysiikan suure- ja yksikköjärjestelmän perusteita.
Osaat ratkaista suoraviivaiseen liikkeeseen liittyviä suureita.
Hallitset lämpölaajenemisen ja lämpöenergian perusteita.
Osaat ratkaista ideaalikaasun tilayhtälöön liittyviä suureita.
Content
- Fysiikan suure- ja yksikköjärjestelmä
- suoraviivainen liike
- lämpölaajeneminen
- lämpöenergia
- ideaalikaasun tilayhtälö
Location and time
Opintojakson voi suorittaa itsenäisesti Reppu-ympäristössä.
Materials
Materiaali on kurssipohjalla.
Oppikirjasuositus:
Insinöörin matematiikka, Tuomenlehto, Holmlund, Huuskonen, Makkonen, Surakka, Edita
Teaching methods
Opintojakso koostuu luentotallenteista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä Repussa.
Student workload
Opintojakso vaatii noin 55 tuntia opiskelijan työtä.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Opiskelija osaa analysoida aihealueen ongelmia ja tuottaa niiden ratkaisuja vaihtoehtoisilla menetelmillä.
Assessment criteria, good (3)
Opiskelija osaa tehdä päätelmiä aihealueen ongelmista ja tuottaa niihin perustuvia ratkaisuja johdonmukaisilla menetelmillä.
Assessment criteria, satisfactory (1)
Opiskelija tunnistaa aihealueen suureet ja yksiköt sekä osaa siihen liittyvien ongelmien ratkaisumenetelmiä.
Assessment criteria, excellent (5)
The students are able to analyse problems posed by the topic in hand and produce alternative methods of solving them.
Toteutuksen arviointikriteerit, hyvä (3-4)
The students are able to draw conclusions from the problems of the topic in hand producing solutions based on them using systematic methods.
Assessment criteria, satisfactory (1)
The students can indentify the quantities and units of the topic in
hand and are able to use related methods to solve problems.
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 02.03.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT24SKKT24S
Objective
Students will be competent in physics required in other courses organised in the school of engineering.
Content
Quantities and unit systems of physics
Motion theory, motion power theory
Work, power and energy
Linear momentum and quantity of motion
Circular and spinning motion
The mechanics of fluids and gases
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse mechanical problems and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the mechanical problems. They are able to divide problem solving into suitable parts and do secondary level equations and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam
Assessment criteria, satisfactory (1)
The students recognise mechanical quantities and units. The students are able to find suitable equations for solving mechanical problems and are proficient in using the required linear equations to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
19.08.2024 - 22.09.2024
Timing
28.10.2024 - 02.03.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Simo Määttä
Groups
-
KRM24SKRM24S
Objective
Students will be competent in physics required in other courses organised in the school of engineering.
Content
Quantities and unit systems of physics
Motion theory, motion power theory
Work, power and energy
Linear momentum and quantity of motion
Circular and spinning motion
The mechanics of fluids and gases
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse mechanical problems and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the mechanical problems. They are able to divide problem solving into suitable parts and do secondary level equations and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam
Assessment criteria, satisfactory (1)
The students recognise mechanical quantities and units. The students are able to find suitable equations for solving mechanical problems and are proficient in using the required linear equations to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 02.03.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will be competent in physics required in other courses organised in the school of engineering.
Content
Quantities and unit systems of physics
Motion theory, motion power theory
Work, power and energy
Linear momentum and quantity of motion
Circular and spinning motion
The mechanics of fluids and gases
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse mechanical problems and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the mechanical problems. They are able to divide problem solving into suitable parts and do secondary level equations and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam
Assessment criteria, satisfactory (1)
The students recognise mechanical quantities and units. The students are able to find suitable equations for solving mechanical problems and are proficient in using the required linear equations to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2024 - 31.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT23SKKT23S
Objective
Students will know the physical background required in other courses in the school of engineering.
Content
Thermodynamics
Vibration
Wave motion
Acoustics
Optics
Direct current circuit
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems of the topic in hand. They are able to divide problem solving into suitable parts to solve related equations and system of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to recognise the topic's (thermodynamics, electronics and wave motion theory) and quantities and units. They are able to find the equations needed to solve problems within the topic area and can do the required linear equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Physics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKM23SKKM23S
Objective
Students will know the physical background required in other courses in the school of engineering.
Content
Thermodynamics
Vibration
Wave motion
Acoustics
Optics
Direct current circuit
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems of the topic in hand. They are able to divide problem solving into suitable parts to solve related equations and system of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to recognise the topic's (thermodynamics, electronics and wave motion theory) and quantities and units. They are able to find the equations needed to solve problems within the topic area and can do the required linear equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Physics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
31.08.2024 - 31.12.2024
Number of ECTS credits allocated
30 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Petteri Laitinen
- Hannu Tornberg
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
- Arja Sirviö
Groups
-
KKT21SKKT21S
Objective
The aim of the practical training period is to provide students with good post graduation employment opportunities and to familiarise students with working life. Students will gain knowledge of different job tasks, working procedures, devices and professional terminology related to their chosen specialism in a real working environment under supervision. The practical training period takes place during the autumn semester of the fourth study year. The practical training co-ordinator is responsible for informing students of practical training issues together with the head of the degree programme.
Content
A continuous approx five month training period in working life
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Prerequisites
Students must have 135 cr before starting their practical training period.
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.07.2025
Number of ECTS credits allocated
1 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Silja Keränen
Groups
-
KKT24SKKT24S
Objective
This course gives the information about the climate change: the phenomenon, impacts and the solutions for the mitigation.
Content
Phenomenon
Greenhouse gases and their concentrations
Rise of the global temperature and it's impact
The need for emission reductions
Solutions for the mitigation
Materials
Verkko-opintojakson yhteydessä tutustuttavaksi tuleva materiaali.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The exercises/questions are within the online course.
Prerequisites
Toisen asteen opinnot luonnontieteistä
Further information
Unfortunately this course is only available in Finnish.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.07.2025
Number of ECTS credits allocated
1 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Silja Keränen
Groups
-
KKT24SRaaKKT24SRaa
Objective
This course gives the information about the climate change: the phenomenon, impacts and the solutions for the mitigation.
Content
Phenomenon
Greenhouse gases and their concentrations
Rise of the global temperature and it's impact
The need for emission reductions
Solutions for the mitigation
Materials
Verkko-opintojakson yhteydessä tutustuttavaksi tuleva materiaali.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The exercises/questions are within the online course.
Prerequisites
Toisen asteen opinnot luonnontieteistä
Further information
Unfortunately this course is only available in Finnish.
Enrollment
10.02.2025 - 11.03.2025
Timing
12.03.2025 - 29.04.2025
Number of ECTS credits allocated
1 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Scheduling groups
- KAMK Avoin AMK 1 (Size: 999. Open UAS: 999.)
Groups
-
AAMKAvoin AMK
Small groups
- KAMK Open UAS 1
Objective
Opintojakso on insinöörikoulutuksen valintakokeeseen valmentava opintojakso.
Content
Matematiikka:
peruslaskutoimitukset,
lausekkeiden sieventäminen ja
yhtälön ratkaiseminen,
geometria
Fysiikka:
liikeyhtälöt,
perusmekaniikka,
sähköoppi ja lämpöoppi.
Location and time
Viikoilla 11 - 17 keskiviikkoisin 17 - 19.15. Viikolla 18 tiistaina kello 17 - 19.15.
Materials
Oppimitariaali jaetaan kurssilla.
Teaching methods
Opetus tapahtuu TEAMSissa. Tunnit nauhoitetaan.
Exam schedules
Kurssin lopuksi monivalintakoe matematiikan ja fysiikan osiosta. Kokeen voi tehdä haluamanaan ajankohtana. Koe auki viikon 18 alusta viikon 22 loppuun.
Completion alternatives
Kurssin voi opiskella myös itsenäisesti. Tunnit nauhoitetaan ja oppituntien materiaali julkaistaan opetuken edetessä.
Student workload
Kurssin laajuus on 1 opintopiste. Kontakti opetusta on 3 oppituntia viikossa kahdeksan viikon ajan. Lisäksi omatoimista opiskelua ja laskemista oman motivaation mukaan.
Assessment criteria, approved/failed
Molemmista kokeista pitää saada 50% oikein.
Content scheduling
Neljä ensimmäistä kertaa matematiikkaa (lausekkeiden sieventäminen, ensimmäisen ja toisen asteen yhtälön ratkaiseminen, tasogeometriaa ja prosenttilaskentaa) ja neljä viimeistä fysiikkaa (kinematiikan, dynamiikan, lämpöopin ja sähköopin perusteet).
Evaluation scale
Hylätty/Hyväksytty
Assessment methods and criteria
Kurssin lopuksi kaksi monivalintakoetta; matematiikasta ja fysiikasta.
Enrollment
02.12.2024 - 31.12.2024
Timing
01.01.2025 - 31.12.2025
Number of ECTS credits allocated
1 op
Mode of delivery
Contact teaching
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Business Information Technology
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Objective
Opintojakso on insinöörikoulutuksen valintakokeeseen valmentava opintojakso.
Content
Matematiikka:
peruslaskutoimitukset,
lausekkeiden sieventäminen ja
yhtälön ratkaiseminen,
geometria
Fysiikka:
liikeyhtälöt,
perusmekaniikka,
sähköoppi ja lämpöoppi.
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
07.10.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKM21SKKM21S
Objective
Mechanical and production engineering students will develop their intercultural competence so that they are able to recognise cultural differences, understand them and adapt their communication style as required. They will apply their international communication competence and deepen their abilities to work in international and multicultural working life situations involving spoken and written interaction in English.
Content
Concepts of culture and communication
Variables for comparing cultures
Cultural differences in communication
The process of adapting to a culture
Presentation of a company, production and products
Telephone conversations
Written communication
Meeting and negotiations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to recognise the main theories and principles of intercultural communication. They are able to discuss and write about related themes using the correct terminology. Their pronunciation and intonation is clear and they are able to plan and implement a comprehensive and natural presentation on a topic related to their field.
Assessment criteria, good (3)
The students are able to recognise some of the main theories and principles of intercultural communication. They are able to recognise and use basic terminology of the field. Their pronunciation and intonation is to some extent clear though containing errors and they are able to plan and implement a presentation on a topic related to their field.
Assessment criteria, satisfactory (1)
The students are able to recognise the basic terminology of the field. They able to communicate on intercultural issues in writing and orally to some degree. Their pronunciation and intonation is weak. They are able to deliver a presentation of some sort with help on the topic in hand.
Prerequisites
European assessment framework B2:
Proficiency test and Build up Your English course if necessary
Further information
KOOU 12.12.2013
Enrollment
30.12.2024 - 26.01.2025
Timing
30.09.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT22SKKT22S
Objective
Mechanical and production engineering students will develop their intercultural competence so that they are able to recognise cultural differences, understand them and adapt their communication style as required. They will apply their international communication competence and deepen their abilities to work in international and multicultural working life situations involving spoken and written interaction in English.
Content
Concepts of culture and communication
Variables for comparing cultures
Cultural differences in communication
The process of adapting to a culture
Presentation of a company, production and products
Telephone conversations
Written communication
Meeting and negotiations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to recognise the main theories and principles of intercultural communication. They are able to discuss and write about related themes using the correct terminology. Their pronunciation and intonation is clear and they are able to plan and implement a comprehensive and natural presentation on a topic related to their field.
Assessment criteria, good (3)
The students are able to recognise some of the main theories and principles of intercultural communication. They are able to recognise and use basic terminology of the field. Their pronunciation and intonation is to some extent clear though containing errors and they are able to plan and implement a presentation on a topic related to their field.
Assessment criteria, satisfactory (1)
The students are able to recognise the basic terminology of the field. They able to communicate on intercultural issues in writing and orally to some degree. Their pronunciation and intonation is weak. They are able to deliver a presentation of some sort with help on the topic in hand.
Prerequisites
European assessment framework B2:
Proficiency test and Build up Your English course if necessary
Further information
KOOU 12.12.2013
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Mechanical and production engineering students will develop their intercultural competence so that they are able to recognise cultural differences, understand them and adapt their communication style as required. They will apply their international communication competence and deepen their abilities to work in international and multicultural working life situations involving spoken and written interaction in English.
Content
Concepts of culture and communication
Variables for comparing cultures
Cultural differences in communication
The process of adapting to a culture
Presentation of a company, production and products
Telephone conversations
Written communication
Meeting and negotiations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to recognise the main theories and principles of intercultural communication. They are able to discuss and write about related themes using the correct terminology. Their pronunciation and intonation is clear and they are able to plan and implement a comprehensive and natural presentation on a topic related to their field.
Assessment criteria, good (3)
The students are able to recognise some of the main theories and principles of intercultural communication. They are able to recognise and use basic terminology of the field. Their pronunciation and intonation is to some extent clear though containing errors and they are able to plan and implement a presentation on a topic related to their field.
Assessment criteria, satisfactory (1)
The students are able to recognise the basic terminology of the field. They able to communicate on intercultural issues in writing and orally to some degree. Their pronunciation and intonation is weak. They are able to deliver a presentation of some sort with help on the topic in hand.
Prerequisites
European assessment framework B2:
Proficiency test and Build up Your English course if necessary
Further information
KOOU 12.12.2013
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SKKT22S
Objective
The student gets a practical feel for project organization and management, using advanced project management tools. The student understands what the project consists of and what matters are related to working in the project and managing it. The student can outline the phases of project-based activities, understand the related terminology, and can assess any risks related to the project. The student completes project work in which the learned knowledge is applied in a practical research or development task.
Content
A research or development task defined by the customer, where the use of modern software is applied in the organization of operations and/or the solution of a problem.
The project:
- Organizational models
- Design and implementation
- Risk analysis
- Documentation / communication during the project
- Conclusion and follow-up
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The student participates in project-based activities. The student knows how to consistently use the concepts of project activities. The student understands the procedures, techniques and models related to project activities, and is able to map the risks associated with them. The student knows how to evaluate his/ her skills and has an attitude towards teamwork in relation to the rest of the project team. The student can act independently and commit to the project's goals, yet as a full-fledged member of the project team. The student is ready to present the achievements of the project in relation to the set goals.
Prerequisites
Mineral Excavation and Mining Engineering
Particle and Beneficiation Engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student gets a practical feel for project organization and management, using advanced project management tools. The student understands what the project consists of and what matters are related to working in the project and managing it. The student can outline the phases of project-based activities, understand the related terminology, and can assess any risks related to the project. The student completes project work in which the learned knowledge is applied in a practical research or development task.
Content
A research or development task defined by the customer, where the use of modern software is applied in the organization of operations and/or the solution of a problem.
The project:
- Organizational models
- Design and implementation
- Risk analysis
- Documentation / communication during the project
- Conclusion and follow-up
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The student participates in project-based activities. The student knows how to consistently use the concepts of project activities. The student understands the procedures, techniques and models related to project activities, and is able to map the risks associated with them. The student knows how to evaluate his/ her skills and has an attitude towards teamwork in relation to the rest of the project team. The student can act independently and commit to the project's goals, yet as a full-fledged member of the project team. The student is ready to present the achievements of the project in relation to the set goals.
Prerequisites
Mineral Excavation and Mining Engineering
Particle and Beneficiation Engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SKKT22S
Objective
The student gets information about the global development of mining operations. The student understands the regional and social significance of the mining industry and can assess how different mines affect the communities surrounding them. The student knows the life cycle of mining operations, from ore exploration to production and further to mine closure.
Content
Mining in Finland and the world.
Basic knowledge of geology and minerals.
Social importance of mining, metals and minerals.
The impact of the mine on the surrounding community.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
No prerequisites.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student gets information about the global development of mining operations. The student understands the regional and social significance of the mining industry and can assess how different mines affect the communities surrounding them. The student knows the life cycle of mining operations, from ore exploration to production and further to mine closure.
Content
Mining in Finland and the world.
Basic knowledge of geology and minerals.
Social importance of mining, metals and minerals.
The impact of the mine on the surrounding community.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
No prerequisites.
Enrollment
19.08.2024 - 22.09.2024
Timing
01.09.2024 - 17.11.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Business
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
VAPVAL2024VAPVAL2024
Objective
The student gets information about the global development of mining operations. The student understands the regional and social significance of the mining industry and can assess how different mines affect the communities surrounding them. The student knows the life cycle of mining operations, from ore exploration to production and further to mine closure.
Content
Mining in Finland and the world.
Basic knowledge of geology and minerals.
Social importance of mining, metals and minerals.
The impact of the mine on the surrounding community.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
No prerequisites.
Enrollment
01.03.2025 - 31.03.2025
Timing
01.04.2025 - 31.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKM23SKKM23S
Objective
The student gets information about the global development of mining operations. The student understands the regional and social significance of the mining industry and can assess how different mines affect the communities surrounding them. The student knows the life cycle of mining operations, from ore exploration to production and further to mine closure.
Content
Mining in Finland and the world.
Basic knowledge of geology and minerals.
Social importance of mining, metals and minerals.
The impact of the mine on the surrounding community.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
No prerequisites.
Enrollment
01.03.2025 - 31.03.2025
Timing
01.04.2025 - 30.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT23SKKT23S
Objective
The student gets information about the global development of mining operations. The student understands the regional and social significance of the mining industry and can assess how different mines affect the communities surrounding them. The student knows the life cycle of mining operations, from ore exploration to production and further to mine closure.
Content
Mining in Finland and the world.
Basic knowledge of geology and minerals.
Social importance of mining, metals and minerals.
The impact of the mine on the surrounding community.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
No prerequisites.
Enrollment
30.12.2024 - 26.01.2025
Timing
10.03.2025 - 14.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KKT24SKKT24S
Objective
Repeat the high school chemistry curriculum and increase knowledge of environmental chemistry.
Content
Periodic table, mole and reactions
Concentration and pH concept
Acids and bases
Oxidation and reduction
Corrosion
Electrochemistry
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student can analyze problems in the subject area and produce alternative solution methods.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The student can draw conclusions in the problems of the subject area.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student recognizes the basic quantities of the subject area. The student finds the equations needed to solve problems in the subject area and knows how to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
10.03.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT23SKKT23S
Objective
Students will be conversant with the usual components used in machine construction and be able to select the appropriate components according to the manufacturer's instructions and/or with the aid of ADP programmes.
Content
Couplings
Bearings
Gears, breaks
Power transfer
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to utilise mechanical component selection with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine.
Assessment criteria, good (3)
The students are able to select and measure structural mechanical components as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to use mechanical component calculation methods based on strength theory in basic situations.
Prerequisites
Strength of Materials
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SKKT22S
Objective
Students will carry out practical mechanical planning tasks and learn to apply acquired theoretical knowledge.
Content
Practical research, development and planning assignments
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently. As members of the project group the students complete all given assignments well, and help and guide other members of the group.
Assessment criteria, satisfactory (1)
The students gain practical knowledge of practical mechanical design tasks while learning to apply theoretical knowledge in them. As members of the project group the students complete all given assignments to a satisfactory degree. They use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Product Development
Further information
The course will be accomplished as R&D studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will carry out practical mechanical planning tasks and learn to apply acquired theoretical knowledge.
Content
Practical research, development and planning assignments
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently. As members of the project group the students complete all given assignments well, and help and guide other members of the group.
Assessment criteria, satisfactory (1)
The students gain practical knowledge of practical mechanical design tasks while learning to apply theoretical knowledge in them. As members of the project group the students complete all given assignments to a satisfactory degree. They use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Product Development
Further information
The course will be accomplished as R&D studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will understand the significance of a systematic product planning method and financial issues in product planning.
Content
Systematic mechanical planning
Product planning for flexible and economically viable production
Planning a modular product concept
Reliability and safety
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution for the situation. They are able to develop systematic methods and planning instructions so that the design team can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply mechanical design methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand the methods of systematic mechanical design and are aware of the significance of economic factors in mechanical design.
Prerequisites
Mechanics and Mechanisms
Mechanical Components
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SKKT22S
Objective
Students will understand the significance of a systematic product planning method and financial issues in product planning.
Content
Systematic mechanical planning
Product planning for flexible and economically viable production
Planning a modular product concept
Reliability and safety
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution for the situation. They are able to develop systematic methods and planning instructions so that the design team can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply mechanical design methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand the methods of systematic mechanical design and are aware of the significance of economic factors in mechanical design.
Prerequisites
Mechanics and Mechanisms
Mechanical Components
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student understands the basic principles and methods of vibration measurements, knows some industry standards. The student gains an understanding of work planning and the phenomena that significantly affect it. The student learns the basic principles of work planning.
Content
Concepts and methods of vibration measurements of rotating machines and equipment, standards. Concepts and definitions of work planning.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop the methods of monitoring the operation of machines in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
The student understands the importance of machine control methods in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. The student becomes aware of the importance of machine control methods in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SKKT22S
Objective
The student understands the basic principles and methods of vibration measurements, knows some industry standards. The student gains an understanding of work planning and the phenomena that significantly affect it. The student learns the basic principles of work planning.
Content
Concepts and methods of vibration measurements of rotating machines and equipment, standards. Concepts and definitions of work planning.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop the methods of monitoring the operation of machines in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
The student understands the importance of machine control methods in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. The student becomes aware of the importance of machine control methods in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
19.08.2024 - 22.09.2024
Timing
01.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 - 6
Mode of delivery
Contact teaching
Unit
Business
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
VAPVAL2024VAPVAL2024
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT22SKKT22S
Objective
The student knows how to create a route for condition monitoring measurements and perform simple measurements of rotating machines and devices.
Content
Laboratory exercises related to vibration measurements of condition monitoring (e.g. balancing, alignment, route measurement planning, analysis of measurements)
The student knows and recognizes the challenges of condition monitoring related to lubricants in industry.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Industrial Maintenance
Condition based monitoring
Condition based monitoring for different industrial applications
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student knows how to create a route for condition monitoring measurements and perform simple measurements of rotating machines and devices.
Content
Laboratory exercises related to vibration measurements of condition monitoring (e.g. balancing, alignment, route measurement planning, analysis of measurements)
The student knows and recognizes the challenges of condition monitoring related to lubricants in industry.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Industrial Maintenance
Condition based monitoring
Condition based monitoring for different industrial applications
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SKKT22S
Objective
The student understands the importance of operation and reliability for the trouble-free operation of the production plant and learns the different principles of modern maintenance and their application in practice
Content
Planning and management of maintenance activities, maintenance strategies, information systems, life cycle costs and their management, responsibilities and standards.
Location and time
Opintojakson opetus järjestetään lähiopetuksena kevätlukukaudella, lukujärjestyksen mukaisesti.
Materials
Opintojakson materiaali annetaan oppimisympäristössä.
Teaching methods
Opintojakso koostuu luennoista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä sekä mahdollisista ryhmätöistä. Oppimistehtävien avulla harjoittelet opintojakson keskeisten sisältöjen hallintaa ja ymmärtämistä.
Exam schedules
Opintojaksolle ei tenttiä
Student workload
Opintojakso vaatii noin 80 tuntia opiskelijan työtä. Luentojen osuus on 36 tuntia. Loput 45 h tuntia työtä liittyvät tehtäviin sekä opintojakson portfolioon. Nämä määrät ovat suuntaa antavia ja lopullinen työmäärä määrittyy opiskelijan itsensä käyttämästä ajasta työskentelyyn
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student understands the importance of operation and reliability for the trouble-free operation of the production plant and learns the different principles of modern maintenance and their application in practice
Content
Planning and management of maintenance activities, maintenance strategies, information systems, life cycle costs and their management, responsibilities and standards.
Location and time
Opintojakson opetus järjestetään lähiopetuksena kevätlukukaudella, lukujärjestyksen mukaisesti.
Materials
Opintojakson materiaali annetaan oppimisympäristössä.
Teaching methods
Opintojakso koostuu luennoista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä sekä mahdollisista ryhmätöistä. Oppimistehtävien avulla harjoittelet opintojakson keskeisten sisältöjen hallintaa ja ymmärtämistä.
Exam schedules
Opintojaksolle ei tenttiä
Student workload
Opintojakso vaatii noin 80 tuntia opiskelijan työtä. Luentojen osuus on 36 tuntia. Loput 45 h tuntia työtä liittyvät tehtäviin sekä opintojakson portfolioon. Nämä määrät ovat suuntaa antavia ja lopullinen työmäärä määrittyy opiskelijan itsensä käyttämästä ajasta työskentelyyn
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 03.11.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will understand quality and the concept of quality management as well as how these are linked to business operations. Students will know the most common business quality control operations and be able to analyse and use collected information from quality control systems to develop operations.
Content
Concepts of quality
Quality leadership
Quality control systems
ISO 9000 etc Quality standards
Quality control methods
Sampling methods
Statistical methods
Quality costs
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop quality management operations in different operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of quality management in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They are aware of the significance of quality management in industrial operations.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT23SKKT23S
Objective
Students will understand quality and the concept of quality management as well as how these are linked to business operations. Students will know the most common business quality control operations and be able to analyse and use collected information from quality control systems to develop operations.
Content
Concepts of quality
Quality leadership
Quality control systems
ISO 9000 etc Quality standards
Quality control methods
Sampling methods
Statistical methods
Quality costs
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop quality management operations in different operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of quality management in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They are aware of the significance of quality management in industrial operations.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SKKT22S
Objective
Students will know the foundations of mining and quarrying in open-pit and underground mines.
Content
Open-pit and underground mining; drilling and blasting, broken rock loading, conveying and crushing and mine reinforcement, water removal and ventilation.
Blasting legislation.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
It will be announced at the beginning of the study period.
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Basics of mining industry and mining techniques
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will know the foundations of mining and quarrying in open-pit and underground mines.
Content
Open-pit and underground mining; drilling and blasting, broken rock loading, conveying and crushing and mine reinforcement, water removal and ventilation.
Blasting legislation.
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
It will be announced at the beginning of the study period.
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Basics of mining industry and mining techniques
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 02.03.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT23SKKT23S
Objective
Students will understand the link between structural loads and stress levels in a structure and be able to calculate strain in a completed structure in different basic cases and assess the importance of the result.
Content
Introduction
Deformation
Types of strain
Different strain cases
Stability
Fatigue endurance limit
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing the tension of statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine and understand the main factors affecting dynamic certainty.
Assessment criteria, good (3)
The students are able to solve tension problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to strength calculation methods for simple tension and deformation analyses concerning statically defined structures.
Prerequisites
Mechanics and Mechanisms
Structural Materials
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 15.03.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKM23SKKM23S
Objective
Students will understand the link between structural loads and stress levels in a structure and be able to calculate strain in a completed structure in different basic cases and assess the importance of the result.
Content
Introduction
Deformation
Types of strain
Different strain cases
Stability
Fatigue endurance limit
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing the tension of statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine and understand the main factors affecting dynamic certainty.
Assessment criteria, good (3)
The students are able to solve tension problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to strength calculation methods for simple tension and deformation analyses concerning statically defined structures.
Prerequisites
Mechanics and Mechanisms
Structural Materials
Further information
1 RDI point
Enrollment
01.01.2025 - 30.11.2025
Timing
01.01.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Virtual portion
3 op
Mode of delivery
Distance learning
Unit
Teknologia
Teaching languages
- Finnish
Seats
0 - 50
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Scheduling groups
- KAMK Avoin AMK 1 (Size: 50. Open UAS: 50.)
Groups
-
AAMKAvoin AMK
Small groups
- KAMK Open UAS 1
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Exponential function and logarithms
Location and time
Opintojakson voi suorittaa itsenäisesti Reppu-ympäristössä.
Materials
Materiaali on kurssipohjalla.
Oppikirjasuositus:
Insinöörin matematiikka, Tuomenlehto, Holmlund, Huuskonen, Makkonen, Surakka, Edita
Teaching methods
Opintojakso koostuu luentotallenteista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä Repussa.
Student workload
Opintojakso vaatii noin 80 tuntia opiskelijan työtä.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Opiskelija hallitsee sanallisten tehtävien kuvaamisen matematiikan kielellä ja osaa tulkita saamiensa tuloksien merkitystä ammattiaineissa esiintyviin probleemoihin
Assessment criteria, good (3)
Opiskelija osaa ratkaista toisen asteen yhtälön ja esittää kuvaajia graafisesti. Opiskelija hallitsee yhtälöparien ja yhtälöryhmien ratkaisemisen. Opiskelija hallitsee eksponentti- ja logaritmilaskentaa.
Assessment criteria, satisfactory (1)
Opiskelija hallitsee lausekkeiden tavanomaiset lavennukset ja sievennykset. Opiskelija osaa potenssi- ja juurilausekkeiden muokkaamisen ja osaa ratkaista ensimmäisen asteen yhtälöitä
Assessment methods and criteria
Kirjallinen tentti.
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
Toteutuksen arviointikriteerit, hyvä (3-4)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations. They are proficient in exponential, logarithm and complex number calculations.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 20.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KKT24SKKT24S
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
19.08.2024 - 22.09.2024
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KRM24SKRM24S
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
19.08.2024 - 22.09.2024
Timing
26.08.2024 - 22.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KRY24SKRY24S
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KRY24SKRY24S
Objective
To partly review and add to high school and vocational college mathematics.
Content
Geometry
Trigonometric functions and equations
Logarithmic and exponential functions
Derivative and integral
Materials
Insinöörin matematiikka;
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply trigonometry and vector algebra to complete demanding tasks.
The student can apply differential calculus to more demanding tasks.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are proficient in vector dot, cross and triple products and their meaning. They understand the basic facts concerning determinants and matrices.
The student knows how to solve differential calculus problems of medium difficulty.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in the basic calculations for plane figures and three dimensional objects. They are proficient in the principles of trigonometry functions and understand the concept of vector.
The student masters the basic calculations of differential calculus.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.03.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Aki Kortelainen
Groups
-
KRM24SKRM24S
Objective
To partly review and add to high school and vocational college mathematics.
Content
Geometry
Trigonometric functions and equations
Logarithmic and exponential functions
Derivative and integral
Materials
Insinöörin matematiikka;
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply trigonometry and vector algebra to complete demanding tasks.
The student can apply differential calculus to more demanding tasks.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are proficient in vector dot, cross and triple products and their meaning. They understand the basic facts concerning determinants and matrices.
The student knows how to solve differential calculus problems of medium difficulty.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in the basic calculations for plane figures and three dimensional objects. They are proficient in the principles of trigonometry functions and understand the concept of vector.
The student masters the basic calculations of differential calculus.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 11.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
To partly review and add to high school and vocational college mathematics.
Content
Geometry
Trigonometric functions and equations
Logarithmic and exponential functions
Derivative and integral
Materials
Insinöörin matematiikka;
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply trigonometry and vector algebra to complete demanding tasks.
The student can apply differential calculus to more demanding tasks.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are proficient in vector dot, cross and triple products and their meaning. They understand the basic facts concerning determinants and matrices.
The student knows how to solve differential calculus problems of medium difficulty.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in the basic calculations for plane figures and three dimensional objects. They are proficient in the principles of trigonometry functions and understand the concept of vector.
The student masters the basic calculations of differential calculus.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.03.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KKT24SKKT24S
Objective
To partly review and add to high school and vocational college mathematics.
Content
Geometry
Trigonometric functions and equations
Logarithmic and exponential functions
Derivative and integral
Materials
Insinöörin matematiikka;
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply trigonometry and vector algebra to complete demanding tasks.
The student can apply differential calculus to more demanding tasks.
A commendable level requires that you get more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The students are proficient in vector dot, cross and triple products and their meaning. They understand the basic facts concerning determinants and matrices.
The student knows how to solve differential calculus problems of medium difficulty.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in the basic calculations for plane figures and three dimensional objects. They are proficient in the principles of trigonometry functions and understand the concept of vector.
The student masters the basic calculations of differential calculus.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 30.11.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KKT23SKKT23S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
19.08.2024 - 22.09.2024
Timing
26.08.2024 - 30.11.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KRY23SKRY23S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKM23SKKM23S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
30.12.2024 - 26.01.2025
Timing
27.01.2025 - 11.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SKKT24S
Objective
Students will be able to determine the stress levels of a statically determined solid and rigid parts in simple structures and mechanisms.
Content
Particle statics
Rigid part plane-statics
Load levels of simple supports
Beam structures
Joint mechanisms
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine.
Assessment criteria, good (3)
The students are able to solve stress problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to mechanical engineering calculation methods for simple stress analyses concerning statically defined structures.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.04.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will be able to determine the stress levels of a statically determined solid and rigid parts in simple structures and mechanisms.
Content
Particle statics
Rigid part plane-statics
Load levels of simple supports
Beam structures
Joint mechanisms
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine.
Assessment criteria, good (3)
The students are able to solve stress problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to mechanical engineering calculation methods for simple stress analyses concerning statically defined structures.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
- Ville Karppinen
Groups
-
KKT23SKKT23S
Objective
The student knows the basics of measurement technology and knows the meaning and main structure of sensors and knows how to choose
and connect the right sensor for each application.
Content
Basics of measurement technology: e.g. measurement uncertainty and its determination and the concept of calibration
Basics of sensors
Switching position sensors
Displacement and rotation sensors
Speed measurement
Measurement of acceleration and vibration
Measurement of force and pressure
Temperature and flow measurement
Barcode and piece identification
Automation safety functions
Connecting the sensors to the control system
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of sensor technology in different operating environments.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to work in different tasks in different operating environments.
The student understands the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Assessment criteria, satisfactory (1)
The student uses professional concepts consistently and knows how to work in individual tasks in accordance with the assignment.
The student becomes aware of the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
- Ville Karppinen
Groups
-
KKM23SKKM23S
Objective
The student knows the basics of measurement technology and knows the meaning and main structure of sensors and knows how to choose
and connect the right sensor for each application.
Content
Basics of measurement technology: e.g. measurement uncertainty and its determination and the concept of calibration
Basics of sensors
Switching position sensors
Displacement and rotation sensors
Speed measurement
Measurement of acceleration and vibration
Measurement of force and pressure
Temperature and flow measurement
Barcode and piece identification
Automation safety functions
Connecting the sensors to the control system
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of sensor technology in different operating environments.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to work in different tasks in different operating environments.
The student understands the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Assessment criteria, satisfactory (1)
The student uses professional concepts consistently and knows how to work in individual tasks in accordance with the assignment.
The student becomes aware of the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.04.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
- Ville Karppinen
Groups
-
KKT24SKKT24S
Objective
The student knows the basics of measurement technology and knows the meaning and main structure of sensors and knows how to choose
and connect the right sensor for each application.
Content
Basics of measurement technology: e.g. measurement uncertainty and its determination and the concept of calibration
Basics of sensors
Switching position sensors
Displacement and rotation sensors
Speed measurement
Measurement of acceleration and vibration
Measurement of force and pressure
Temperature and flow measurement
Barcode and piece identification
Automation safety functions
Connecting the sensors to the control system
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of sensor technology in different operating environments.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to work in different tasks in different operating environments.
The student understands the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Assessment criteria, satisfactory (1)
The student uses professional concepts consistently and knows how to work in individual tasks in accordance with the assignment.
The student becomes aware of the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.03.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
- Ville Karppinen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student knows the basics of measurement technology and knows the meaning and main structure of sensors and knows how to choose
and connect the right sensor for each application.
Content
Basics of measurement technology: e.g. measurement uncertainty and its determination and the concept of calibration
Basics of sensors
Switching position sensors
Displacement and rotation sensors
Speed measurement
Measurement of acceleration and vibration
Measurement of force and pressure
Temperature and flow measurement
Barcode and piece identification
Automation safety functions
Connecting the sensors to the control system
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of sensor technology in different operating environments.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to work in different tasks in different operating environments.
The student understands the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Assessment criteria, satisfactory (1)
The student uses professional concepts consistently and knows how to work in individual tasks in accordance with the assignment.
The student becomes aware of the importance of sensor technology in industrial operations and masters the basics of measurement technology.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
2 op
Virtual portion
2 op
Mode of delivery
Distance learning
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jani Vattula
Groups
-
KKT24SKKT24S
Objective
The student understands the Word, Excel, PowerPoint and Teams software programs and can use them independently in her/his studies and working life in a professional manner.
Content
The scope of the two credits covers the Basic and Advanced levels of the Office software.
Basic:
- Basics of word processing
- Basics of spreadsheet calculation
- Basics of slideshows
- Teams and meeting participation
Advanced:
- Long documents
- Advanced use of Excel
- The keys to a good show
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The student returns all six assignments with approval. The approved performance of the task also requires corrections that may appear in the feedback.
Further information
The student receives registration instructions for the online course by email.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT23SKKT23S
Objective
The student knows the importance of control devices and various automation systems
implementation principles, structures and programming of programmable automation devices
platform.
Content
Basics of digital technology
Switching function
Programmable logics
Logic programming
Materials
Learning material on a learning platform (e.g. DevMoodle)
Device manufacturers' manuals
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses concepts and operating principles related to control systems competently and extensively, and knows how to combine devices into entities used in automatic production.
The student knows how to select and critically evaluate different implementation options for control systems, can present alternative solutions and works as a member of a group, promoting the group's activities.
Assessment criteria, good (3)
The student knows how to name and describe the basic functions of control systems used in automatic production and consistently uses the terminology of the professional field.
The student knows how to apply different implementation options of control systems to automatic production and can justify his choice.
Assessment criteria, satisfactory (1)
The student knows how to name and describe the devices of different control systems and works as a group member, taking the other group members into account.
Prerequisites
Measuring and sensor technology
Enrollment
30.12.2024 - 26.01.2025
Timing
11.11.2024 - 31.05.2025
Number of ECTS credits allocated
15 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Petteri Laitinen
- Hannu Tornberg
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
Groups
-
KKT21SKKT21S
Objective
The aim of the thesis is to develop and demonstrate the students' ability to apply knowledge and skills to specialist assignments linked to their studies. The thesis is usually accomplished for the benefit of working life concerning a topic agreed with the client (commissioning party) and therefore advances the students professional growth. The thesis is therefore a versatile indicator of the student's competence.
Content
Finding and agreeing on a suitable topic
Completion of necessary documentation
Acceptance process
Completion of thesis
Presentation of thesis
Maturity test
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.09.2024 - 30.05.2025
Number of ECTS credits allocated
15 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Petteri Laitinen
- Hannu Tornberg
- Kari Mikkola
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
Groups
-
KKM21SKKM21S
Objective
The aim of the thesis is to develop and demonstrate the students' ability to apply knowledge and skills to specialist assignments linked to their studies. The thesis is usually accomplished for the benefit of working life concerning a topic agreed with the client (commissioning party) and therefore advances the students professional growth. The thesis is therefore a versatile indicator of the student's competence.
Content
Finding and agreeing on a suitable topic
Completion of necessary documentation
Acceptance process
Completion of thesis
Presentation of thesis
Maturity test
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.09.2024 - 18.05.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT21SKKT21S
Objective
The aim of the study course is to give the student an understanding of the stages involved in the thesis process and the readiness to start and complete the thesis process. The student knows how to search for information and write a complete scientific report.
Content
- Requirements related to the thesis
- Ethics related to the thesis
- The stages of the thesis process
- Searching for information and using sources
- Writing
- Project management and research activities
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The praiseworthy text skillfully combines the versatile use of source material and my own chosen point of view. The topic is discussed in a structured way and new aspects are also being developed. The conclusions and considerations are justified very clearly and consistently. The use of language is precise, neat and stylistically consistent. Source markings and the rest of the essay format are finished.
Assessment criteria, good (3)
In a good text, the source material has been used sufficiently extensively and quite expertly. Own and borrowed from sources are clearly distinguished from each other, and the use of sources is natural. The language is good and relatively consistent. Source markings have been made and the text is clear, but there may be some flaws in the markings or other layout.
Assessment criteria, satisfactory (1)
In a satisfactory text, the source material is used rather little or scarcely, and there are clear flaws in its processing. Source markings are missing or unclear. The whole is fragmented or the treatment of the theory is weak. The text has considerable, different and difficult to understand grammatical or structural deficiencies.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.05.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKM21SKKM21S
Objective
The aim of the study course is to give the student an understanding of the stages involved in the thesis process and the readiness to start and complete the thesis process. The student knows how to search for information and write a complete scientific report.
Content
- Requirements related to the thesis
- Ethics related to the thesis
- The stages of the thesis process
- Searching for information and using sources
- Writing
- Project management and research activities
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The praiseworthy text skillfully combines the versatile use of source material and my own chosen point of view. The topic is discussed in a structured way and new aspects are also being developed. The conclusions and considerations are justified very clearly and consistently. The use of language is precise, neat and stylistically consistent. Source markings and the rest of the essay format are finished.
Assessment criteria, good (3)
In a good text, the source material has been used sufficiently extensively and quite expertly. Own and borrowed from sources are clearly distinguished from each other, and the use of sources is natural. The language is good and relatively consistent. Source markings have been made and the text is clear, but there may be some flaws in the markings or other layout.
Assessment criteria, satisfactory (1)
In a satisfactory text, the source material is used rather little or scarcely, and there are clear flaws in its processing. Source markings are missing or unclear. The whole is fragmented or the treatment of the theory is weak. The text has considerable, different and difficult to understand grammatical or structural deficiencies.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SKKT22S
Objective
Students will be conversant with basic mineral processing, the properties of granulose material, the unit processes and equipment of particle engineering. Students will know basic beneficiation methods and the structures of beneficiation equipment. Students will gain knowledge of the separation of solids from water/gas mixtures.
Content
Crushing, grinding and classification
Crushing and grinding circuits
Fine grinding technology devices
Flotation
Specific gravity and magnetic separation
Solids separation and filtration
Equipment maintenance
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to understand the operational mechanisms and principles as well as methods of adjustment (tuning) of equipment used in this field. They are able to use professional concepts with expertise and can apply their professional competence in different situations.
Assessment criteria, good (3)
The students are able to understand the basic operating principles of equipment used in the field. They are able to use a wide range of professional concepts fluently and can carry out tasks in different operational environments.
Assessment criteria, satisfactory (1)
The students are able to recognise the most common devices and how they work.
They are able to use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Basics of mining industry and mining techniques
Further information
2 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will be conversant with basic mineral processing, the properties of granulose material, the unit processes and equipment of particle engineering. Students will know basic beneficiation methods and the structures of beneficiation equipment. Students will gain knowledge of the separation of solids from water/gas mixtures.
Content
Crushing, grinding and classification
Crushing and grinding circuits
Fine grinding technology devices
Flotation
Specific gravity and magnetic separation
Solids separation and filtration
Equipment maintenance
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to understand the operational mechanisms and principles as well as methods of adjustment (tuning) of equipment used in this field. They are able to use professional concepts with expertise and can apply their professional competence in different situations.
Assessment criteria, good (3)
The students are able to understand the basic operating principles of equipment used in the field. They are able to use a wide range of professional concepts fluently and can carry out tasks in different operational environments.
Assessment criteria, satisfactory (1)
The students are able to recognise the most common devices and how they work.
They are able to use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Basics of mining industry and mining techniques
Further information
2 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.11.2024 - 17.03.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Business
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_Kone OPE_Kone
Groups
-
VAPVAL2024VAPVAL2024
Objective
Students will be conversant with basic mineral processing, the properties of granulose material, the unit processes and equipment of particle engineering. Students will know basic beneficiation methods and the structures of beneficiation equipment. Students will gain knowledge of the separation of solids from water/gas mixtures.
Content
Crushing, grinding and classification
Crushing and grinding circuits
Fine grinding technology devices
Flotation
Specific gravity and magnetic separation
Solids separation and filtration
Equipment maintenance
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to understand the operational mechanisms and principles as well as methods of adjustment (tuning) of equipment used in this field. They are able to use professional concepts with expertise and can apply their professional competence in different situations.
Assessment criteria, good (3)
The students are able to understand the basic operating principles of equipment used in the field. They are able to use a wide range of professional concepts fluently and can carry out tasks in different operational environments.
Assessment criteria, satisfactory (1)
The students are able to recognise the most common devices and how they work.
They are able to use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Basics of mining industry and mining techniques
Further information
2 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT23SKKT23S
Objective
The student knows the basics and components of pneumatics and hydraulics and knows how to apply them in machine automation devices and knows maintenance-related issues.
Content
Producing and transferring compressed air
Compressed air components
Design and control of compressed air systems
Hydraulic energy
Hydraulic components
Hydraulic system design and control
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to choose the best possible and available pneumatics/hydraulics method for each situation. The student is able to develop methods so that they are suitable for use in different situations in an economical way.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to evaluate the applicability of methods in different tasks in different operating environments.
The student understands the economic importance of pneumatics/hydraulics in industrial operations.
Assessment criteria, satisfactory (1)
The student recognizes the main methods of pneumatics/hydraulics and their fields of application and uses professional concepts consistently.
The student becomes aware of the importance of knowing pneumatics/hydraulics methods in industrial operations.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM23SKKM23S
Objective
The student knows the basics and components of pneumatics and hydraulics and knows how to apply them in machine automation devices and knows maintenance-related issues.
Content
Producing and transferring compressed air
Compressed air components
Design and control of compressed air systems
Hydraulic energy
Hydraulic components
Hydraulic system design and control
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to choose the best possible and available pneumatics/hydraulics method for each situation. The student is able to develop methods so that they are suitable for use in different situations in an economical way.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to evaluate the applicability of methods in different tasks in different operating environments.
The student understands the economic importance of pneumatics/hydraulics in industrial operations.
Assessment criteria, satisfactory (1)
The student recognizes the main methods of pneumatics/hydraulics and their fields of application and uses professional concepts consistently.
The student becomes aware of the importance of knowing pneumatics/hydraulics methods in industrial operations.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
RDI portion
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
Students will be able plan and implement a project together with its documentation, using different methods and as part of a team. They will understand the significance of project and development work and the differences between research projects and development work and tasks based on everyday thought.
Content
Structure and stages of a project
Funding
Groups and teams
Meetings procedure and communication
Communal idea generation methods
Methods for field-specific development work
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.03.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
Students will be able plan and implement a project together with its documentation, using different methods and as part of a team. They will understand the significance of project and development work and the differences between research projects and development work and tasks based on everyday thought.
Content
Structure and stages of a project
Funding
Groups and teams
Meetings procedure and communication
Communal idea generation methods
Methods for field-specific development work
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student gets a practical feel for project organization and management, using advanced project management tools.The student understands what the project consists of and what matters are related to working in the project and managing it.The student can outline the phases of project-based activities, understand the related terminology and can assess any risks related to the project. The student completes project work in which the learned knowledge is applied in a practical research or development task.
Content
A research or development task defined by the customer, where the use of modern software is applied in the organization of operations and/or the solution of a problem.
The project:
- Organizational models
- Design and implementation
- Risk analysis
- Documentation / communication during the project
- Conclusion and follow-up
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Basics of Project Work 1
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student learns about mechanical and chemical unit processes. The student gets to know heat and mass transfer techniques. On the basis of this information, the student creates a whole of industrial production processes.
Content
Mechanical unit processes
Chemical unit processes
Heat transfer technologies
Transfer techniques
Total industrial processes
Industry and environment
Materials
Lectures and exercises.
Evaluation scale
Hylätty/Hyväksytty
Assessment criteria, excellent (5)
The student comprehensively understands the unit processes and can form overall processes independently based on them. The student can calculate math problems independently.
Assessment criteria, good (3)
The student understands the unit processes and can form overall processes based on them. The calculation tasks are successful. topics.
Assessment criteria, satisfactory (1)
The student understands some of the unit processes and can form overall processes based on them with assistance.
Enrollment
30.12.2024 - 26.01.2025
Timing
24.02.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
The student learns about mechanical and chemical unit processes. The student gets to know heat and mass transfer techniques. On the basis of this information, the student creates a whole of industrial production processes.
Content
Mechanical unit processes
Chemical unit processes
Heat transfer technologies
Transfer techniques
Total industrial processes
Industry and environment
Materials
Lectures and exercises.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student comprehensively understands the unit processes and can form overall processes independently based on them. The student can calculate math problems independently.
Assessment criteria, good (3)
The student understands the unit processes and can form overall processes based on them. The calculation tasks are successful. topics.
Assessment criteria, satisfactory (1)
The student understands some of the unit processes and can form overall processes based on them with assistance.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Objective
Students will gain an in depth overview of the economic significance of materials in product manufacturing, cost structure and use.
Content
The common features of metals
Materials testing methods
Metals
The general principles of polymers
Technical plastics
Technical ceramics
Materials
Tunnilla annettu materiaali
Opintojen tueksi:
Kirjallisuus: Koivisto, K., Laitinen, E., Niinimäki, M., Tiainen, T., Tiilikka, P., Tuomikoski, J., Konetekniikan materiaalioppi
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use the property databases of different materials with expertise and can apply their acquired knowledge to solve problems. They can use comparison tools with routine.
Assessment criteria, good (3)
The students are able to assess the costs of the lifelong use of different structural materials as required. They are able to present comparisons clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to choose machine construction materials as required under normal conditions. They understand the restrictions of use of structural materials.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will gain an in depth overview of the economic significance of materials in product manufacturing, cost structure and use.
Content
The common features of metals
Materials testing methods
Metals
The general principles of polymers
Technical plastics
Technical ceramics
Materials
Tunnilla annettu materiaali
Opintojen tueksi:
Kirjallisuus: Koivisto, K., Laitinen, E., Niinimäki, M., Tiainen, T., Tiilikka, P., Tuomikoski, J., Konetekniikan materiaalioppi
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use the property databases of different materials with expertise and can apply their acquired knowledge to solve problems. They can use comparison tools with routine.
Assessment criteria, good (3)
The students are able to assess the costs of the lifelong use of different structural materials as required. They are able to present comparisons clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to choose machine construction materials as required under normal conditions. They understand the restrictions of use of structural materials.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT21SKKT21S
Objective
The students will gain a practical overview of various robotics fields and systems. They will practice applying previous knowledge.
Content
Company or school based projects linked to robotics studies under the supervision of a teacher and related theory.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The project evaluates the three areas mentioned below. Assessment accepted / rejected. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to act according to the purpose of the project in order to achieve the goals of the project
Information management skills
-The student can critically select and analyze current information that serves the project and the development of the student's skills
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
- Assignment agreement
-Final report of the project
- Self-assessment
- Evaluation of the project team
- Time tracking form
- Course feedback
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
06.01.2025 - 13.04.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
- Ville Karppinen
Groups
-
KKM21SKKM21S
Objective
The students will gain a practical overview of various robotics fields and systems. They will practice applying previous knowledge.
Content
Company or school based projects linked to robotics studies under the supervision of a teacher and related theory.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The project evaluates the three areas mentioned below. Assessment accepted / rejected. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to act according to the purpose of the project in order to achieve the goals of the project
Information management skills
-The student can critically select and analyze current information that serves the project and the development of the student's skills
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
- Assignment agreement
-Final report of the project
- Self-assessment
- Evaluation of the project team
- Time tracking form
- Course feedback
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT22SKKT22S
Objective
The students will gain a practical overview of various robotics fields and systems. They will practice applying previous knowledge.
Content
Company or school based projects linked to robotics studies under the supervision of a teacher and related theory.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The project evaluates the three areas mentioned below. Assessment accepted / rejected. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to act according to the purpose of the project in order to achieve the goals of the project
Information management skills
-The student can critically select and analyze current information that serves the project and the development of the student's skills
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
- Assignment agreement
-Final report of the project
- Self-assessment
- Evaluation of the project team
- Time tracking form
- Course feedback
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The students will gain a practical overview of various robotics fields and systems. They will practice applying previous knowledge.
Content
Company or school based projects linked to robotics studies under the supervision of a teacher and related theory.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The project evaluates the three areas mentioned below. Assessment accepted / rejected. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to act according to the purpose of the project in order to achieve the goals of the project
Information management skills
-The student can critically select and analyze current information that serves the project and the development of the student's skills
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
- Assignment agreement
-Final report of the project
- Self-assessment
- Evaluation of the project team
- Time tracking form
- Course feedback
Further information
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
Students will gain a general overview of how modern robots can be used in piece goods production and in the machine workshop and will be able to apply and programme robots.
Content
Robot statistics
Robot structures
Grippers and tools
Robot sensors
Use and programming of robots
Application examples and peripheral equipment
Connecting robots to other automation systems
Robot systems' safety and security
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Performing laboratory exercises
Returning learning tasks
Self-assessment
Course feedback
Enrollment
30.12.2024 - 26.01.2025
Timing
03.02.2025 - 21.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT24SKKT24S
Objective
Students will gain a general overview of how modern robots can be used in piece goods production and in the machine workshop and will be able to apply and programme robots.
Content
Robot statistics
Robot structures
Grippers and tools
Robot sensors
Use and programming of robots
Application examples and peripheral equipment
Connecting robots to other automation systems
Robot systems' safety and security
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Performing laboratory exercises
Returning learning tasks
Self-assessment
Course feedback
Enrollment
30.12.2024 - 26.01.2025
Timing
03.02.2025 - 21.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will gain a general overview of how modern robots can be used in piece goods production and in the machine workshop and will be able to apply and programme robots.
Content
Robot statistics
Robot structures
Grippers and tools
Robot sensors
Use and programming of robots
Application examples and peripheral equipment
Connecting robots to other automation systems
Robot systems' safety and security
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Performing laboratory exercises
Returning learning tasks
Self-assessment
Course feedback
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SKKT22S
Objective
Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.
Content
Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.
Content
Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 13.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT21SKKT21S
Objective
The student knows the functions and standards related to the implementation of a robot system.
Content
Regarding the robotic cell:
- Machinery Directive
-Standards related to robotics
-Technical file of machines
-Conformity insurance
- Risk analysis
-CE marking
Materials
Opettajan osoittama materiaali.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 13.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM21SKKM21S
Objective
The student knows the functions and standards related to the implementation of a robot system.
Content
Regarding the robotic cell:
- Machinery Directive
-Standards related to robotics
-Technical file of machines
-Conformity insurance
- Risk analysis
-CE marking
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SKKT22S
Objective
The student knows the functions and standards related to the implementation of a robot system.
Content
Regarding the robotic cell:
- Machinery Directive
-Standards related to robotics
-Technical file of machines
-Conformity insurance
- Risk analysis
-CE marking
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student knows the functions and standards related to the implementation of a robot system.
Content
Regarding the robotic cell:
- Machinery Directive
-Standards related to robotics
-Technical file of machines
-Conformity insurance
- Risk analysis
-CE marking
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SKKT22S
Objective
The student is able to use the industrial robotics simulation systems in the design and programming of a robot cell.
Content
Creating and programming a simulation model for an industrial robot system.
Materials
Material given by the teacher
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student is able to use the industrial robotics simulation systems in the design and programming of a robot cell.
Content
Creating and programming a simulation model for an industrial robot system.
Materials
Material given by the teacher
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
10.02.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT23SKKT23S
Objective
Students will develop their oral and writing skills in Finland's second offcial language specifically to aid their own professional development. Students will practise speaking Swedish in everyday communication situations as well as being able to discuss professional issues in Swedish face to face and on the phone. Students will also be able to find and use information in Swedish concerning their own specific field.
Content
Central vocabulary and communication situations for mechanical and production engineering students
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt language to the needs of working life using the vocabulary of their field, topics related to current content and versatile sentence structures. They are proficient in the basic terminology of the field. The students are able to plan and deliver a comprehensive and natural presentation on a topic related to their field. Grammar and pronunciation errors are rare.
Assessment criteria, good (3)
The students are able to produce basic sentence structures when speaking and writing in the most common situations encountered in everyday and working life. The students are able to recognise and use the basic terminology of the field. The students are able to plan and deliver a fairly fluent oral presentation on a topic related to their field, using support material. Grammar and pronunciation errors occur from time to time.
Assessment criteria, satisfactory (1)
The students are able to produce simple sentences in writing and orally in the most common situations encountered in everyday and working life. The students are able to recognise basic terminology of working life and are able to plan and deliver an oral presentation on a topic related to their field using support material though grammar and pronunciation errors occur.
Further information
BÄJA 25.2.2022
Enrollment
30.12.2024 - 26.01.2025
Timing
28.08.2024 - 20.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKM23SKKM23S
Objective
The student masters the basic laws of electrical engineering, the basic components of analog electronics and their basic connections, as well as basic measurements with a multimeter and an oscilloscope
Content
Basic laws of electrical engineering
Basic components and basic connections of analog electronics
Using a multimeter
Basic use of an oscilloscope
Basics of laboratory work
Basics of thermal design
Materials
Oppimateriaali oppimisalustalla ( esim. DevMoodle )
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Controls the basic laws and regulations of electrical engineering, uses professional concepts expertly, and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of electronics in different operating environments.
Assessment criteria, good (3)
Controls the basic laws of electrical engineering and uses professional concepts fluently and knows how to work in different tasks in different operating environments.
The student understands the importance of electronics and electrical engineering in industrial operations.
Assessment criteria, satisfactory (1)
The student knows the basic laws of electrical engineering and can work in individual tasks according to the assignment.
The student becomes aware of the importance of electronics and electrical engineering in industrial operations.
Enrollment
30.12.2024 - 26.01.2025
Timing
10.03.2025 - 11.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SKKT24S
Objective
The student masters the basic laws of electrical engineering, the basic components of analog electronics and their basic connections, as well as basic measurements with a multimeter and an oscilloscope
Content
Basic laws of electrical engineering
Basic components and basic connections of analog electronics
Using a multimeter
Basic use of an oscilloscope
Basics of laboratory work
Basics of thermal design
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Controls the basic laws and regulations of electrical engineering, uses professional concepts expertly, and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of electronics in different operating environments.
Assessment criteria, good (3)
Controls the basic laws of electrical engineering and uses professional concepts fluently and knows how to work in different tasks in different operating environments.
The student understands the importance of electronics and electrical engineering in industrial operations.
Assessment criteria, satisfactory (1)
The student knows the basic laws of electrical engineering and can work in individual tasks according to the assignment.
The student becomes aware of the importance of electronics and electrical engineering in industrial operations.
Enrollment
30.12.2024 - 26.01.2025
Timing
17.03.2025 - 11.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student masters the basic laws of electrical engineering, the basic components of analog electronics and their basic connections, as well as basic measurements with a multimeter and an oscilloscope
Content
Basic laws of electrical engineering
Basic components and basic connections of analog electronics
Using a multimeter
Basic use of an oscilloscope
Basics of laboratory work
Basics of thermal design
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Controls the basic laws and regulations of electrical engineering, uses professional concepts expertly, and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of electronics in different operating environments.
Assessment criteria, good (3)
Controls the basic laws of electrical engineering and uses professional concepts fluently and knows how to work in different tasks in different operating environments.
The student understands the importance of electronics and electrical engineering in industrial operations.
Assessment criteria, satisfactory (1)
The student knows the basic laws of electrical engineering and can work in individual tasks according to the assignment.
The student becomes aware of the importance of electronics and electrical engineering in industrial operations.
Enrollment
19.08.2024 - 22.09.2024
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
2 - 3
Mode of delivery
Contact teaching
Unit
Business
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- Veera Kilpeläinen
- Mika Pietarinen
- Kimmo Kemppainen
Groups
-
VAPVAL2024VAPVAL2024
Objective
The student knows how to plan, market and implement an event open to the public. After completing the course, the student will be able to:
- act as an event assistant
- takes responsibility for carrying out the tasks assigned to him
-see your own importance in the success of the event
- knows how to perform according to his role in the tasks that belong to the event
Content
Event planning
Legal requirements, event safety and environmental responsibilities
Event preparation and implementation
Marketing and information
Collection and processing of feedback
Learning diary and Reporting
Materials
Material in Reppu
Evaluation scale
0 - 5
Prerequisites
No requirements.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- Veera Kilpeläinen
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student knows how to plan, market and implement an event open to the public. After completing the course, the student will be able to:
- act as an event assistant
- takes responsibility for carrying out the tasks assigned to him
-see your own importance in the success of the event
- knows how to perform according to his role in the tasks that belong to the event
Content
Event planning
Legal requirements, event safety and environmental responsibilities
Event preparation and implementation
Marketing and information
Collection and processing of feedback
Learning diary and Reporting
Materials
Material in Reppu
Evaluation scale
0 - 5
Prerequisites
No requirements.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 20.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT24SKKT24S
Objective
To develop written and spoken communication skills for technical and engineering posts.
Content
Basic principles of communication
Forms of academic writing for engineering
Preparation, implementation and analysis of speaking situations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students understand the significance of language in terms of creating and reinforcing their own professional identity, using language as a part of their own professionalism. They approach feedback situations actively and constructively. They share their expertise within their community in a way and using communication tools most appropriate to the situation and can compile a goal-oriented presentation demonstrating their expertise. They are able to express their points of view in a variety of ways, effectively and according to the requirements of the situation. They also know how to question linguistic practices adopted by the community and strive to change them with reason. The students are able to retrieve the latest information concerning their field independently and approach new knowledge with curiosity. They are able to assess work requiring expertise from an ethical and cultural point of view and can create a supportive atmosphere.
Assessment criteria, good (3)
The students are able to list their strengths and weaknesses as a communicator. They assess the significance of their actions in the communication process and accept and provide constructive feedback. They understand the significance of forms of language used in professional activities. They take into account the target groups in presentation situations and can use various communication tools. The students are able to compile texts related to their field using compact, unambiguous, descriptive and plain language that also take the reader into account. They know the text layout rules of their organisation and comply with them. They use source texts from their own field comprehensively and critically within their own texts, combining ideas from the source text with their own to form a systematic and cohesive piece of writing.
Assessment criteria, satisfactory (1)
The students are aware of the impact of their communication style within the communication process. They are able to compile a work-related text for a given target group. They can present topics based on their field and illustrate their points in the presentation. Their written texts comply with academic style and the fundamental norms of accurate language usage. They can separate their own ideas from ideas presented in source material. They are able to compile a cohesive text based on a specific problem but with mechanical source referencing. The students are able to describe the impact of culture on the communication situation.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT24SRaaKKT24SRaa
Objective
To develop written and spoken communication skills for technical and engineering posts.
Content
Basic principles of communication
Forms of academic writing for engineering
Preparation, implementation and analysis of speaking situations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students understand the significance of language in terms of creating and reinforcing their own professional identity, using language as a part of their own professionalism. They approach feedback situations actively and constructively. They share their expertise within their community in a way and using communication tools most appropriate to the situation and can compile a goal-oriented presentation demonstrating their expertise. They are able to express their points of view in a variety of ways, effectively and according to the requirements of the situation. They also know how to question linguistic practices adopted by the community and strive to change them with reason. The students are able to retrieve the latest information concerning their field independently and approach new knowledge with curiosity. They are able to assess work requiring expertise from an ethical and cultural point of view and can create a supportive atmosphere.
Assessment criteria, good (3)
The students are able to list their strengths and weaknesses as a communicator. They assess the significance of their actions in the communication process and accept and provide constructive feedback. They understand the significance of forms of language used in professional activities. They take into account the target groups in presentation situations and can use various communication tools. The students are able to compile texts related to their field using compact, unambiguous, descriptive and plain language that also take the reader into account. They know the text layout rules of their organisation and comply with them. They use source texts from their own field comprehensively and critically within their own texts, combining ideas from the source text with their own to form a systematic and cohesive piece of writing.
Assessment criteria, satisfactory (1)
The students are aware of the impact of their communication style within the communication process. They are able to compile a work-related text for a given target group. They can present topics based on their field and illustrate their points in the presentation. Their written texts comply with academic style and the fundamental norms of accurate language usage. They can separate their own ideas from ideas presented in source material. They are able to compile a cohesive text based on a specific problem but with mechanical source referencing. The students are able to describe the impact of culture on the communication situation.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SKKT24S
Objective
The student can read and prepare working and assembly drawings for mechanical engineering. In addition, he knows how to sketch and draw working drawings of simple pieces and assemblies of small entities. The student knows how to use CAD software in 2D design and knows
the possibilities of computer-aided design.
Content
Standards and their meaning
Lines and texts
Projections and axonometry
Sketching
Surgery
Dimensioning and tolerances
Use of industry-specific notations, symbols and diagrams
2D CAD
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students know how to use a wide range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work with others as a team to achieve common goals.
Assessment criteria, good (3)
The students are able to name and describe the methods and principles of technical drawing and can apply them appropriately and with justification in the design context.
Assessment criteria, satisfactory (1)
The students know how to use a comprehensive range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work as part of a group to achieve common goals.
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student can read and prepare working and assembly drawings for mechanical engineering. In addition, he knows how to sketch and draw working drawings of simple pieces and assemblies of small entities. The student knows how to use CAD software in 2D design and knows
the possibilities of computer-aided design.
Content
Standards and their meaning
Lines and texts
Projections and axonometry
Sketching
Surgery
Dimensioning and tolerances
Use of industry-specific notations, symbols and diagrams
2D CAD
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students know how to use a wide range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work with others as a team to achieve common goals.
Assessment criteria, good (3)
The students are able to name and describe the methods and principles of technical drawing and can apply them appropriately and with justification in the design context.
Assessment criteria, satisfactory (1)
The students know how to use a comprehensive range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work as part of a group to achieve common goals.
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SKKT22S
Objective
Students will gain experience in practical maintenance tasks and learn to apply acquired theoretical knowledge.
Content
Practical research, development and planning assignments
Teaching methods
Luennot, projektityö ja projektin seurantaan liittyvät tapamiset.
Student workload
Opintojakso edellyttää n. 135 tuntia opiskelijan työtä.
Assessment criteria, approved/failed
Hyväksyttyyn suoritukseen vaaditaan:
- Toimeksiantosopimus
- Projektisuunnitelma
- Loppuraportti
- Projektityön esittely
- Itsearviointi
- Projektiryhmän arviointi
- Ajanseurantalomake
Evaluation scale
Hylätty/Hyväksytty
Assessment criteria, approved/failed
Passed performance requires that the student uses professional concepts fluently and extensively. As a member of the project team, the student performs the assigned tasks well, helps and guides the other members of the team, and is able to independently develop maintenance procedures and methods.
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Introduction to Maintenance
Further information
5 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will gain experience in practical maintenance tasks and learn to apply acquired theoretical knowledge.
Content
Practical research, development and planning assignments
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Passed performance requires that the student uses professional concepts fluently and extensively. As a member of the project team, the student performs the assigned tasks well, helps and guides the other members of the team, and is able to independently develop maintenance procedures and methods.
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Introduction to Maintenance
Further information
5 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 10.11.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student learns about breakdowns, fault diagnostics and the choice of different methods of condition monitoring.
Content
Technical methods of condition monitoring, failure, fault diagnostics, planning of condition monitoring.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT22SKKT22S
Objective
The student learns about breakdowns, fault diagnostics and the choice of different methods of condition monitoring.
Content
Technical methods of condition monitoring, failure, fault diagnostics, planning of condition monitoring.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Objective
The student understands the essential importance of operational reliability for the trouble-free operation of a production plant and learns the different principles of modern maintenance and their application in practice.
Content
- Introduction to running,
- Maintenance functions,
- Profitability and efficiency of maintenance,
- Malfunction,
- The meaning and concepts of reliability, modeling and analysis methods,
- Reliability calculation
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
Prerequisites
No prerequisites.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student understands the essential importance of operational reliability for the trouble-free operation of a production plant and learns the different principles of modern maintenance and their application in practice.
Content
- Introduction to running,
- Maintenance functions,
- Profitability and efficiency of maintenance,
- Malfunction,
- The meaning and concepts of reliability, modeling and analysis methods,
- Reliability calculation
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
Prerequisites
No prerequisites.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.09.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Riikka Korhonen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will know the basics of pipeline planning and be able to select and survey the components required in the pipeline and understand the official procedures concerning pipelines.
Content
Pipeline plans and drawings
The basics of flow technology
Pumps and pipeline equipment
Preparation and installation of pipelines
Inspections and official regulations
Materials
Kussilla saatava materiaali.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to plan a pipeline system with necessary its necessary supports and to select suitable components and pumps for the system.
Assessment criteria, good (3)
The students are able to draw isometric diagrams of pipes and do technical flow calculations to determine the size of pipes and pipelines.
Assessment criteria, satisfactory (1)
The students are able to interpret drawings of pipelines and are familiar with the most common components of a pipeline as well as the principles of operation of pumps. They are aware of the official regulations and procedures concerning the use of pressure vessels.
Prerequisites
Introduction to Maintenance
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Riikka Korhonen
Groups
-
KKT22SKKT22S
Objective
Students will know the basics of pipeline planning and be able to select and survey the components required in the pipeline and understand the official procedures concerning pipelines.
Content
Pipeline plans and drawings
The basics of flow technology
Pumps and pipeline equipment
Preparation and installation of pipelines
Inspections and official regulations
Materials
Kussilla saatava materiaali.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to plan a pipeline system with necessary its necessary supports and to select suitable components and pumps for the system.
Assessment criteria, good (3)
The students are able to draw isometric diagrams of pipes and do technical flow calculations to determine the size of pipes and pipelines.
Assessment criteria, satisfactory (1)
The students are able to interpret drawings of pipelines and are familiar with the most common components of a pipeline as well as the principles of operation of pumps. They are aware of the official regulations and procedures concerning the use of pressure vessels.
Prerequisites
Introduction to Maintenance
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Riikka Korhonen
Groups
-
KKT23SKKT23S
Objective
Students will know the basics of pipeline planning and be able to select and survey the components required in the pipeline and understand the official procedures concerning pipelines.
Content
Pipeline plans and drawings
The basics of flow technology
Pumps and pipeline equipment
Preparation and installation of pipelines
Inspections and official regulations
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to plan a pipeline system with necessary its necessary supports and to select suitable components and pumps for the system.
Assessment criteria, good (3)
The students are able to draw isometric diagrams of pipes and do technical flow calculations to determine the size of pipes and pipelines.
Assessment criteria, satisfactory (1)
The students are able to interpret drawings of pipelines and are familiar with the most common components of a pipeline as well as the principles of operation of pumps. They are aware of the official regulations and procedures concerning the use of pressure vessels.
Prerequisites
Introduction to Maintenance
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT21SKKT21S
Objective
The student knows how to use the machine vision systems of industrial robotics.
Content
2D and 3D machine vision
Machine vision systems integrated into industrial robots
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM21SKKM21S
Objective
The student knows how to use the machine vision systems of industrial robotics.
Content
2D and 3D machine vision
Machine vision systems integrated into industrial robots
Materials
Opettajan osoittama materiaali
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SKKT22S
Objective
The student knows how to use the machine vision systems of industrial robotics.
Content
2D and 3D machine vision
Machine vision systems integrated into industrial robots
Materials
Material given by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student knows how to use the machine vision systems of industrial robotics.
Content
2D and 3D machine vision
Machine vision systems integrated into industrial robots
Materials
Material given by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
12.08.2024 - 31.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Antti Rimpiläinen
Groups
-
KKM21SKKM21S
Objective
The student understands the importance of entrepreneurship in society and knows the basic concepts of entrepreneurship. The student understands the prerequisites for a profitable business and knows how to prepare simple profitability analyzes and calculations. The student knows the basics of the most important operations of a productive enterprise.
Content
The meaning of business, the basic concepts and operating environment of business, business planning, the basics of business economics and accounting, profitability calculation, the basic functions of a manufacturing company (production, management and sales and marketing), the basics of company law and a simulation exercise of the operation of a manufacturing company.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions.
Prerequisites
Ei esitietovaatimuksia.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Antti Rimpiläinen
Groups
-
KKT23SKKT23S
Objective
The student understands the importance of entrepreneurship in society and knows the basic concepts of entrepreneurship. The student understands the prerequisites for a profitable business and knows how to prepare simple profitability analyzes and calculations. The student knows the basics of the most important operations of a productive enterprise.
Content
The meaning of business, the basic concepts and operating environment of business, business planning, the basics of business economics and accounting, profitability calculation, the basic functions of a manufacturing company (production, management and sales and marketing), the basics of company law and a simulation exercise of the operation of a manufacturing company.
Materials
Material to be distributed at lectures and in Moodle, as well as a course book.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions.
Prerequisites
Ei esitietovaatimuksia.
Enrollment
30.12.2024 - 26.01.2025
Timing
17.03.2025 - 30.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT23SKKT23S
Objective
This course provides students with an understanding of the technology and features of field buses used in robotics and industrial automation. The students will use bus configuration tools and diagnostics.
Content
Industrial Ethernet
Profibus
CanOpen
Ethernet Powerlink
Profinet
Bus solutions for microcontrollers such as SPI, I2C, 1-wire
General overview of bus structures, main operating principles, bus data communication technology, bus traffic monitoring, analysis and testing
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply different bus solutions when designing and implementing industrial data communications solutions. Excellent performance in the lab exercises and practical assignment-proven applied competence in bus solutions.
Assessment criteria, good (3)
The students are able to develop different bus solutions when designing and implementing industrial data communications solutions.Pass for lab exercises and practical assignment-proven mastered competence in bus solutions.
Assessment criteria, satisfactory (1)
The students understand the significance of bus solutions in designing and implementing industrial data communications solutions. Pass for lab exercises and practical assignment-proven competence to understand bus solutions.
Assessment criteria, approved/failed
To be announced.
Further information
Lectures and laboratory exercises. Laboratory sessions are compulsory.
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT21SKKT21S
Objective
The student becomes familiar with operational development and operational control methods and their characteristics, and learns to utilize their principles in various practical situations and environments. The student understands the possibilities of different methods and practices from the point of view of management and economics.
Content
- Operations management and organization
- Management of production processes, operational control
- Business networks and outsourcing
- Supplier assessment, procurement and use of the operational control system
- Operation and production management models in companies of different sizes
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
11.11.2024 - 16.02.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM21SKKM21S
Objective
The student becomes familiar with operational development and operational control methods and their characteristics, and learns to utilize their principles in various practical situations and environments. The student understands the possibilities of different methods and practices from the point of view of management and economics.
Content
- Operations management and organization
- Management of production processes, operational control
- Business networks and outsourcing
- Supplier assessment, procurement and use of the operational control system
- Operation and production management models in companies of different sizes
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Groups
-
KKT22SKKT22S
Objective
The student becomes familiar with operational development and operational control methods and their characteristics, and learns to utilize their principles in various practical situations and environments. The student understands the possibilities of different methods and practices from the point of view of management and economics.
Content
- Operations management and organization
- Management of production processes, operational control
- Business networks and outsourcing
- Supplier assessment, procurement and use of the operational control system
- Operation and production management models in companies of different sizes
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.03.2025 - 27.05.2025
Number of ECTS credits allocated
0 op
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KRY24SKRY24S
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.05.2025
Number of ECTS credits allocated
0 op
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 31.05.2025
Number of ECTS credits allocated
0 op
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SRaaKKT24SRaa
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.04.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT21SKKT21S
Objective
Students will gain practical experience of production leadership and management, problems that can arise and how to apply theory in practice.
Content
Practical research and/or planning assignments linked to production leadership studies.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop maintenance production functions in leadership operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of production leadership in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to the commission. They are aware of the significance of production leadership in industrial operations.
Further information
The courses will be partly completed through RDI studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 28.02.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM21SKKM21S
Objective
Students will gain practical experience of production leadership and management, problems that can arise and how to apply theory in practice.
Content
Practical research and/or planning assignments linked to production leadership studies.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop maintenance production functions in leadership operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of production leadership in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to the commission. They are aware of the significance of production leadership in industrial operations.
Further information
The courses will be partly completed through RDI studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
Students will gain practical experience of production leadership and management, problems that can arise and how to apply theory in practice.
Content
Practical research and/or planning assignments linked to production leadership studies.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop maintenance production functions in leadership operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of production leadership in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to the commission. They are aware of the significance of production leadership in industrial operations.
Further information
The courses will be partly completed through RDI studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will gain practical experience of production leadership and management, problems that can arise and how to apply theory in practice.
Content
Practical research and/or planning assignments linked to production leadership studies.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop maintenance production functions in leadership operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of production leadership in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to the commission. They are aware of the significance of production leadership in industrial operations.
Further information
The courses will be partly completed through RDI studies.
3 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 17.11.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT22SKKT22S
Objective
The student gets an understanding of the planning of production and production processes of a company engaged in production activities, as well as an understanding of what production, production planning, production modeling are and which tools can be used to manage, plan and model production.
The student learns about the possibilities of production virtual modeling in production planning, and learns the basic working techniques for planning and carrying out economically profitable production for practical situations.
Content
- Virtual production planning - Simulation
- The perspective of production and manufacturing for production planning
- Concepts and principles of modeling
- Modeling processes and defining requirements
- Creating a virtual model
- Modeling and programming
- Kinematics of the virtual model
- Analyzing the operation of the model
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student gets an understanding of the planning of production and production processes of a company engaged in production activities, as well as an understanding of what production, production planning, production modeling are and which tools can be used to manage, plan and model production.
The student learns about the possibilities of production virtual modeling in production planning, and learns the basic working techniques for planning and carrying out economically profitable production for practical situations.
Content
- Virtual production planning - Simulation
- The perspective of production and manufacturing for production planning
- Concepts and principles of modeling
- Modeling processes and defining requirements
- Creating a virtual model
- Modeling and programming
- Kinematics of the virtual model
- Analyzing the operation of the model
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 13.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT21SKKT21S
Objective
The student understands and is able to implement the company's operations and management with modern methods and software. The student outlines the possibilities of different methods and practices from the perspective of management and economics. The aim is also to highlight how the information produced by modern systems can be effectively utilized in production management.
Content
- Manufacturing Operations Management (MOM) - Enterprise Resource Management (ERP)
- Manufacturing Execution System (MES)
- Advanced Planning and Scheduling (APS)
- Shop floor scheduling/management
- Performance Analysis and Process Management
- Manufacturing Data & Process Management
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Edeltävyysehto: Tuotannon virtuaalimallinnus ja tuotannonsuunnittelu -kurssit suoritettuna.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 27.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM21SKKM21S
Objective
The student understands and is able to implement the company's operations and management with modern methods and software. The student outlines the possibilities of different methods and practices from the perspective of management and economics. The aim is also to highlight how the information produced by modern systems can be effectively utilized in production management.
Content
- Manufacturing Operations Management (MOM) - Enterprise Resource Management (ERP)
- Manufacturing Execution System (MES)
- Advanced Planning and Scheduling (APS)
- Shop floor scheduling/management
- Performance Analysis and Process Management
- Manufacturing Data & Process Management
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Edeltävyysehto: Tuotannon virtuaalimallinnus ja tuotannonsuunnittelu -kurssit suoritettuna.
Enrollment
30.12.2024 - 26.01.2025
Timing
28.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student gets an understanding of the operation of a manufacturing company and the planning of production processes, and learns to use modern software for planning and developing economically profitable production.
The content of the course provides the basic skills to work as a production planning professional who has the skills to design production solutions that meet the demands of today's international markets competitively.
Content
Layout planning
Factory Logistics & Material Flow Optimization
Plant Simulation & Throughput Optimization
- Analyze Production Systems with 2D and 3D Statistical Simulation
- Eliminate Bottlenecks and Streamline Throughput
- Optimize Energy Usage for Improved Performance
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Edeltävyysehto: Tuotannon virtuaalimallinnus -kurssi suoritettuna.
Enrollment
30.12.2024 - 26.01.2025
Timing
07.10.2024 - 29.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
The student learns to understand the basics of production operations and production techniques. Understands production operations as processes and adopts the main principles of process management. The student understands the company's production process, including e.g. order-supply chain and outline the logistics chains related to production processes, as well as learn control and efficiency opportunities related to their management.
Content
Basic concepts of production planning and control
Process modeling and management
Order-supply chain of a manufacturing company
Fundamentals of load and material operations
Impact of operations on results and stakeholder cooperation
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
17.03.2025 - 11.05.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
The student learns to understand the basics of production operations and production techniques. Understands production operations as processes and adopts the main principles of process management. The student understands the company's production process, including e.g. order-supply chain and outline the logistics chains related to production processes, as well as learn control and efficiency opportunities related to their management.
Content
Basic concepts of production planning and control
Process modeling and management
Order-supply chain of a manufacturing company
Fundamentals of load and material operations
Impact of operations on results and stakeholder cooperation
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 30.04.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student learns to understand the basics of production operations and production techniques. Understands production operations as processes and adopts the main principles of process management. The student understands the company's production process, including e.g. order-supply chain and outline the logistics chains related to production processes, as well as learn control and efficiency opportunities related to their management.
Content
Basic concepts of production planning and control
Process modeling and management
Order-supply chain of a manufacturing company
Fundamentals of load and material operations
Impact of operations on results and stakeholder cooperation
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT22SKKT22S
Objective
Opiskelija saa käytännön tuntumaa projektin organisointiin ja johtamiseen, käyttäen projektinhallinnan edistyneitä työkaluja. Opiskelija ymmärtää, mistä projekti koostuu ja mitä asioita projektissa toimimiseen ja sen johtamiseen liittyy. Opiskelija osaa hahmottaa projektimuotoisen toiminnan vaiheet, ymmärtää siihen liittyvän terminologian sekä osaa arvioida projektiin mahdollisesti liittyviä riskejä. Opiskelija suorittaa projektityön, jossa sovelletaan opittua tietoa käytännönläheisessä tutkimus- tai kehitystehtävässä.
Content
Asiakkaan määrittelemä tutkimus- tai kehitystehtävä, jossa sovelletaan nykyaikaisten ohjelmistojen käyttöä toiminnan organisoinnissa ja/tai ongelman ratkaisussa.
Projektin:
- Organisoitumismalleja
- Suunnittelu ja toteutus
- Riskianalyysi
- Dokumentointi / viestintä projektin aikana
- Päättäminen ja jatkotoimenpiteet
Teaching methods
Toimeksiannon mukainen projektityöskentely
Employer connections
Projektityöaiheet pyritään saamaan toimeksiantoina
Student workload
80 h
Content scheduling
Toimekaiannon mukaan
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Opiskelija osallistuu projektimuotoiseen toimintaan. Opiskelija osaa käyttää johdonmukaisesti projektitoiminnan käsitteitä. Hän ymmärtää projektitoimintaan liittyviä toimintatapoja, tekniikoita ja malleja, sekä pysty kartoittamaan niihin liittyviä riskejä. Hän osaa arvioida osaamistaan ja asennettaan ryhmätyöskentelyyn suhteessa muuhun projektiryhmään. Opiskelija osaa toimia itsenäisesti ja projektin tavoitteisiin sitoutuen, kuitenkin projektiryhmän täysivaltaisena jäsenenä. Opiskelija on valmis esittelemään projektin saavutukset suhteessa asetettuihin tavoitteisiin.
Assessment criteria, excellent (5)
Opiskelija kykenee kehittämään annettuja perusohjeita soveltaen työmenetelmiä töiden suorittamiseksi.
Opiskelija pystyy määrittämään ja asettamaan oikeat asetusarvot töissä käytettäviin valmistusmenetelmiin.
Opiskelija tunnistaa ja korjaa mahdolliset puutteet työturvallisuudessa.
Toteutuksen arviointikriteerit, hyvä (3-4)
Opiskelija kykenee soveltamaan annettuja perusohjeita töiden suorituksessa.
Opiskelija pystyy asettamaan oikeat asetusarvot töissä käytettäviin valmistusmenetelmiin.
Opiskelija tunnistaa mahdolliset puutteet työturvallisuudessa.
Assessment criteria, satisfactory (1)
Opiskelija kykenee suorittamaan yksityiskohtaisesti ohjattuna annettuja töitä.
Opiskelija tiedostaa työturvallisuuden merkityksen teollisessa toiminnassa.
Enrollment
30.12.2024 - 26.01.2025
Timing
02.09.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
The student understands the importance of customer needs recognition and implementation of creative working techniques in product development.
The student understands the purpose of leadership in product development and is able to apply product development techniques.
The student understands the importance of product development and the life-cycle concept of a product in successful business.
The student deepens their knowledge and becomes familiar with the topic through assignments and examples.
Content
- Planning of product strategy and program
- Product development project
- Techniques of customer needs recognition
- Product specification
- Applying creative work techniques in product development
- Evaluation and analyzing of drafts
- Product architecture
- Innovations and protecting them
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student understands the importance of customer needs recognition and implementation of creative working techniques in product development.
The student understands the purpose of leadership in product development and is able to apply product development techniques.
The student understands the importance of product development and the life-cycle concept of a product in successful business.
The student deepens their knowledge and becomes familiar with the topic through assignments and examples.
Content
- Planning of product strategy and program
- Product development project
- Techniques of customer needs recognition
- Product specification
- Applying creative work techniques in product development
- Evaluation and analyzing of drafts
- Product architecture
- Innovations and protecting them
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student learns about the position of product development in industrial operations and knows the different stages of a product development project. The student understands the importance of systematic product development procedures, documentation, and manufacturing and installation-friendly planning in product development.
Content
- Product architecture
- Detail planning
- Product design and usability
- Production costs and their effects
- Product lifecycle management and documentation in product development
- Product testing and prototypes
- The Machinery Directive and other key standards
- Inventions and their protection
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently and know the stages of commercialisation. They are able to apply methods of commercialisation during the different stages of the development process and are able to carry out tasks required in the process as members of the planning group.
Assessment criteria, satisfactory (1)
The students understand the significance of systematic commercialisation in industrial business operations.
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
The student learns about the position of product development in industrial operations and knows the different stages of a product development project. The student understands the importance of systematic product development procedures, documentation, and manufacturing and installation-friendly planning in product development.
Content
- Product architecture
- Detail planning
- Product design and usability
- Production costs and their effects
- Product lifecycle management and documentation in product development
- Product testing and prototypes
- The Machinery Directive and other key standards
- Inventions and their protection
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently and know the stages of commercialisation. They are able to apply methods of commercialisation during the different stages of the development process and are able to carry out tasks required in the process as members of the planning group.
Assessment criteria, satisfactory (1)
The students understand the significance of systematic commercialisation in industrial business operations.
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.05.2025 - 31.08.2025
Number of ECTS credits allocated
3 - 5
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Business Information Technology
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- Miia Rönkkö
Groups
-
KKT24SKKT24S
Objective
The goal is to familiarize yourself with the basic rules of working life already at the beginning of your studies, before the actual training.
Content
Operating methods of working life.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Written final report on the practical training period.
Prerequisites
At least 1st year of studies have been done.
Can be completed only once during studies.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.05.2025 - 31.08.2025
Number of ECTS credits allocated
3 - 5
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Business Information Technology
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- OPE_Kone OPE_Kone
Groups
-
KKT24SRaaKKT24SRaa
Objective
The goal is to familiarize yourself with the basic rules of working life already at the beginning of your studies, before the actual training.
Content
Operating methods of working life.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Written final report on the practical training period.
Prerequisites
At least 1st year of studies have been done.
Can be completed only once during studies.
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT23SKKT23S
Objective
Student will learn basic principles of leading the work and understands the action of people who are working in different organizations. Student will know methods for leading, different structures of organization and the principles of behavior as a team member and also as an individual. Knowing those basics will help student developing efficiency of the work withing financial points of view. Student can also reflect own action in respect of other team members. Student can perceive some industrial viewpoint in leading the work.
Content
- Roles and tasks as a leader
- Guidelines and theories for leading
- Individual in teamwork and leading self
- Groups and teams in organizations
- Organization culture and its impacts on leading
- LEAN and daily management
- Teamleading in heavy industry and its challenges
- Expert lectures
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
10.03.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM23SKKM23S
Objective
Student will learn basic principles of leading the work and understands the action of people who are working in different organizations. Student will know methods for leading, different structures of organization and the principles of behavior as a team member and also as an individual. Knowing those basics will help student developing efficiency of the work withing financial points of view. Student can also reflect own action in respect of other team members. Student can perceive some industrial viewpoint in leading the work.
Content
- Roles and tasks as a leader
- Guidelines and theories for leading
- Individual in teamwork and leading self
- Groups and teams in organizations
- Organization culture and its impacts on leading
- LEAN and daily management
- Teamleading in heavy industry and its challenges
- Expert lectures
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
13.01.2025 - 27.04.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SKKT24S
Objective
Student will learn basic principles of leading the work and understands the action of people who are working in different organizations. Student will know methods for leading, different structures of organization and the principles of behavior as a team member and also as an individual. Knowing those basics will help student developing efficiency of the work withing financial points of view. Student can also reflect own action in respect of other team members. Student can perceive some industrial viewpoint in leading the work.
Content
- Roles and tasks as a leader
- Guidelines and theories for leading
- Individual in teamwork and leading self
- Groups and teams in organizations
- Organization culture and its impacts on leading
- LEAN and daily management
- Teamleading in heavy industry and its challenges
- Expert lectures
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 16.03.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Objective
The student understands the importance of occupational safety in productive business operations. The student recognizes issues related to occupational safety and knows how to take them into account in his own activities. The student knows the operational models related to occupational health and safety and knows the key legislation in the field. The student acquires the skills necessary for safety and firework tasks.
Content
The importance of occupational health and safety, occupational safety and occupational well-being
Occupational health and safety in industrial business operations
Occupational health and safety operating models and key legislation
Location and time
Opintojakson opetus järjestetään lähiopetuksena kevätlukukaudella 2025, lukujärjestyksen mukaisesti.
Materials
Oppimateriaalina käytetään Repun materiaali.
Teaching methods
Opintojakso koostuu luennoista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä Repussa. Oppimistehtävien avulla harjoittelet opintojakson keskeisten sisältöjen hallintaa ja ymmärtämistä. Lisäksi opintojaksoon kuuluu itsenäisesti tai ryhmässä tehtäviä harjoituksia, joita tehdään luentojen aikana.
Exam schedules
Opintojaksoon liittyvät tentit tehdään Reppu-ympäristössä, repussa esitettyjen aikataulujen mukaisesti.
Student workload
Opintojakso vaatii noin 54 tuntia opiskelijan työtä. Luentojen osuus on 26 tuntia. Loput 28 h tuntia työtä liittyvät opintojakson tehtäviin sekä Repussa tehtävien tenttien tekemisee. Nämä määrät ovat suuntaa antavia ja lopullinen työmäärä määrittyy opiskelijan itsensä käyttämästä ajasta työskentelyyn.
Assessment criteria, approved/failed
Hyväksytyn suorituksen raja on 70% maksimista
Arviointi tehdään Repun tenttien ja harjoitustehtävien perusteella, jokaisen osion jälkeen tehdään Repussa olevat tentit. Läpäistäksesi opintojakson tulee tenteistä saada yhteensä vähintään 60 % pisteistä, lisäksi kaikki tehtävät Repussa tulee olla tehtynä.
Further information
Tulityö- ja työturvallisuuskortit suoritetaan erikseen, tällä opintojaksolla perehdytään laajemmin mitä osa-alueita yritysten turvallisuuteen kuuluu ja mitä on otettava huomioon ja miksi turvallisuusasioihin on kiinnitettävä huomiota ja miksi niitä on kehitettävä aktiivisesti.
Evaluation scale
Hylätty/Hyväksytty
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Assessment methods and criteria
Opintojakso arvioidaan hylätty/hyväksytty asteikolla. Läpäistäksesi opintojakson tulee tehdä oppimisympäristöstä löytyvät tentit sekä annetut tehtävät.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 16.03.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student understands the importance of occupational safety in productive business operations. The student recognizes issues related to occupational safety and knows how to take them into account in his own activities. The student knows the operational models related to occupational health and safety and knows the key legislation in the field. The student acquires the skills necessary for safety and firework tasks.
Content
The importance of occupational health and safety, occupational safety and occupational well-being
Occupational health and safety in industrial business operations
Occupational health and safety operating models and key legislation
Location and time
Opintojakson opetus järjestetään lähiopetuksena kevätlukukaudella 2025, lukujärjestyksen mukaisesti.
Materials
Oppimateriaalina käytetään Repun materiaali.
Teaching methods
Opintojakso koostuu luennoista, joihin liittyy itsenäisesti suoritettavia oppimistehtäviä Repussa. Oppimistehtävien avulla harjoittelet opintojakson keskeisten sisältöjen hallintaa ja ymmärtämistä. Lisäksi opintojaksoon kuuluu itsenäisesti tai ryhmässä tehtäviä harjoituksia, joita tehdään luentojen aikana.
Exam schedules
Opintojaksoon liittyvät tentit tehdään Reppu-ympäristössä, repussa esitettyjen aikataulujen mukaisesti.
Student workload
Opintojakso vaatii noin 54 tuntia opiskelijan työtä. Luentojen osuus on 26 tuntia. Loput 28 h tuntia työtä liittyvät opintojakson tehtäviin sekä Repussa tehtävien tenttien tekemisee. Nämä määrät ovat suuntaa antavia ja lopullinen työmäärä määrittyy opiskelijan itsensä käyttämästä ajasta työskentelyyn.
Assessment criteria, approved/failed
Hyväksytyn suorituksen raja on 70% maksimista
Arviointi tehdään Repun tenttien ja harjoitustehtävien perusteella, jokaisen osion jälkeen tehdään Repussa olevat tentit. Läpäistäksesi opintojakson tulee tenteistä saada yhteensä vähintään 60 % pisteistä, lisäksi kaikki tehtävät Repussa tulee olla tehtynä.
Further information
Tulityö- ja työturvallisuuskortit suoritetaan erikseen, tällä opintojaksolla perehdytään laajemmin mitä osa-alueita yritysten turvallisuuteen kuuluu ja mitä on otettava huomioon ja miksi turvallisuusasioihin on kiinnitettävä huomiota ja miksi niitä on kehitettävä aktiivisesti.
Evaluation scale
Hylätty/Hyväksytty
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Assessment methods and criteria
Opintojakso arvioidaan hylätty/hyväksytty asteikolla. Läpäistäksesi opintojakson tulee tehdä oppimisympäristöstä löytyvät tentit sekä annetut tehtävät.
Enrollment
01.01.2025 - 30.11.2025
Timing
01.01.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Virtual portion
2 op
Mode of delivery
Distance learning
Unit
Teknologia
Teaching languages
- Finnish
Seats
0 - 50
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Scheduling groups
- KAMK Avoin AMK 1 (Size: 50. Open UAS: 50.)
Small groups
- KAMK Open UAS 1
Objective
Opintojakson antaa kattavan ymmärryksen työturvallisuuden ja yritysturvallisuuden keskeisistä periaatteista ja niiden merkityksestä tuotannollisessa yritystoiminnassa. Opit tunnistamaan ja arvioimaan erilaisia työturvallisuuteen liittyviä riskejä. Tunnistat työturvallisuuden sekä työsuojeluun liittyvät toimintamallit ja tunnet alan keskeisen lainsäädännön. Opintojakson tavoitteena on myös lisätä tietoisuuttasi työhyvinvoinnin tärkeydestä sekä auttaa ymmärtämään tietoturvan merkityksen yritysturvallisuudessa.
Content
Yritysturvallisuus osiossa tulet tarkastelemaan mitä on yritysturvallisuus, mistä se muodostuu, millaisia uhkia yritysten turvallisuuteen voi kohdistua ja miten niitä voidaan hallita. Lisäksi perehdytään työturvallisuuden lainsäädäntöön sekä tarkastellaan mitä on turvallisuusjohtaminen ja mistä muodostuu yrityksen turvallisuuskulttuuri.
Työturvallisuus osiossa tarkastelet yleisesti henkilöstöturvallisuutta sekä tutkit mistä perustekijöistä työturvallisuus muodostuu niin teollisuudessa kuin muillakin toimialoilla. Tutustut muun muassa työsuojeluun, työhyvinvointiin ja työtapaturmiin liittyviin asioihin.
Turvallisesti teollisuudessa osiossa tutustut yritysten toimitiloihin sekä koneisiin ja laitteisiin liittyviin turvallisuustekijöihin, kuten kiinteistö- ja toimitilaturvallisuuteen ja koneturvallisuuteen.
Työympäristön turvallisuuteen liittyvässä osiossa tutustut työympäristöjen turvallisuuteen liittyviin tekijöihin ja tarkastelet millä keinoilla turvallisuutta voidaan parantaa.
Viimeisessä osiossa, Tietoturvallisuus, katsot mitä liittyy yritysten tietoturvallisuuteen, sillä tietoturvallisuus on entistä merkittävämmässä roolissa yritysturvallisuudessa.
Location and time
Non stop opiskelu verkossa
Materials
Vaadittu oppimateriaali annetaan opintojakson oppimisympäristössä.
Teaching methods
Verkko-opetus: Oppimistehtävät ja tentit.
Exam schedules
Opintojakso muodostuu Moodlessa olevasta itsenäisesti opiskeltavasta aineistosta sekä Moodlessa tehtävistä harjoitustehtävistä. Kokonaisuus on jaettu viiteen osioon ja jokaisen osion lopuksi tehdään tentti.
Completion alternatives
Keskustelu ja sopiminen opintojakson opettajan kanssa.
Student workload
Opintojakso 2 op = n. 54 tuntia opiskelijan työtä.
Assessment criteria, approved/failed
Hyväksytty suoritus edellyttää, että oppimisympäristössä kaikki vaaditut tehtävät, tentit ja aktiviteettit on suoritettu. Opintojaksolla edistymistä voi seurata edistymisen seuranta palkista. Opintojaksolla on viisi eri aihekokonaisuutta, joista jokaisesta tehdään tentti. Tenteistä voi saada yhteensä 50 pistettä. Hyväksyttyyn suoritukseen vaaditaan vähintään 30 pistettä (60 %). Sen lisäksi harjoitustehtävien osuus arvioinnista on 10 %. Kaikki tehtävät tulee suorittaa.
Content scheduling
Opintojakso muodostuu Moodlessa olevasta itsenäisesti opiskeltavasta aineistosta sekä Moodlessa tehtävistä harjoitustehtävistä. Kokonaisuus on jaettu viiteen osioon ja jokaisen osion lopuksi tehdään tentti.
Evaluation scale
Hylätty/Hyväksytty
Assessment criteria, approved/failed
Hyväksytty suoritus edellyttää, että oppimisympäristössä kaikki vaaditut tehtävät, tentit ja aktiviteettit on suoritettu. Opintojaksolla edistymistä voi seurata edistymisen seuranta palkista.
Opintojaksolla on viisi eri aihekokonaisuutta, joista jokaisesta tehdään tentti. Tenteistä voi saada yhteensä 50 pistettä. Hyväksyttyyn suoritukseen vaaditaan vähintään 30 pistettä (60 %). Sen lisäksi harjoitustehtävien osuus arvioinnista on 10 %. Kaikki tehtävät tulee suorittaa.
Assessment methods and criteria
Arviointi hyväksytty/hylätty.
Kaikkien osioiden tenteistä lasketaan yhteispistemäärä. Hyväksytty suoritus edellyttää, että kokonaispistemäärästä vähintään 60 % on saavutettava.
Hyväksytty suoritus edellyttää myös, että kaikki vaadittavat tehtävät ja aktiviteetit tulee olla suoritettuna.
Prerequisites
Ei esitietovaatimuksia
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 11.05.2025
Number of ECTS credits allocated
0 op
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SRaaKKT24SRaa
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2025 - 11.05.2025
Number of ECTS credits allocated
0 op
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2024 - 24.11.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The student gets an understanding of electric energy production, transmission, distribution systems, requirements set by the operating conditions of electricity and protection methods. The student knows how to choose motors, starting and control methods for various electrical applications. He knows how to calculate the price comparisons of different forms of energy and electricity tariffs, and he masters power calculations.
Content
Electrical accidents and their emergency first aid
Electricity operating conditions and protection methods
Electric energy production, transmission and distribution systems
Electricity pricing
Electric motor technology and electric motor drives
Electrical work safety training is included in the course
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
In addition to the above, the student also knows how to acquire information independently and apply the knowledge she/he has acquired and learned in a versatile way.
Assessment criteria, good (3)
In addition to the above, the student can also apply the knowledge she/he has learned in dimensioning.
Assessment criteria, satisfactory (1)
The student understands the basics and importance of electrical safety, as well as the basics of dimensioning motor drives.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
31.08.2024 - 31.12.2024
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
Students will gain a general overview of how manufacturing units are made and which devices and machines are used for this purpose.
Content
Casting technique
Moulding techniques
Sheet and coupling techniques
Machine cutting
Coating metods
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible available manufacturing technology method for a given situation. The students are able to develop methods for efficient use in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the economic significance of manufacturing technology in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to recognise the main methods of manufacturing technology and their fields of use and can use professional concepts systematically. They are aware of the significance of knowing manufacturing technology methods in industrial operations.
Further information
Partly accomplished as R&D studies
1 RDI point
Enrollment
18.11.2024 - 26.01.2025
Timing
18.11.2024 - 02.03.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
Students will gain a general overview of how manufacturing units are made and which devices and machines are used for this purpose.
Content
Casting technique
Moulding techniques
Sheet and coupling techniques
Machine cutting
Coating metods
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible available manufacturing technology method for a given situation. The students are able to develop methods for efficient use in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the economic significance of manufacturing technology in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to recognise the main methods of manufacturing technology and their fields of use and can use professional concepts systematically. They are aware of the significance of knowing manufacturing technology methods in industrial operations.
Further information
Partly accomplished as R&D studies
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
21.10.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
Students will understand vibrations while being able to analyse the size of a vibration, use vibration management planning methods and measure vibrations.
Content
The parts of a vibrating system
The natural vibration for one degree of freedom
The harmonic forced vibration of one degree of freedom
The general forced movement for one degree of freedom
The equations of motion for a system of several degrees of freedom
The natural vibration for a system of several degrees of freedom
The forced vibration of several degrees of freedom
Studies of practical vibration by iLearnVibration software.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution taking vibration into account. They are able to analyse vibration phenomena and to develop systematic methods and planning instructions on avoiding vibration problems.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different tasks and various operational environments. They are able to apply vibration mechanics calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand vibration phenomena are aware of their significance in mechanical design while knowing methods of controlling vibrations.
Prerequisites
Physics 2
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
30.09.2024 - 15.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT22SKKT22S
Objective
Students will understand vibrations while being able to analyse the size of a vibration, use vibration management planning methods and measure vibrations.
Content
The parts of a vibrating system
The natural vibration for one degree of freedom
The harmonic forced vibration of one degree of freedom
The general forced movement for one degree of freedom
The equations of motion for a system of several degrees of freedom
The natural vibration for a system of several degrees of freedom
The forced vibration of several degrees of freedom
Studies of practical vibration by iLearnVibration software.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution taking vibration into account. They are able to analyse vibration phenomena and to develop systematic methods and planning instructions on avoiding vibration problems.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different tasks and various operational environments. They are able to apply vibration mechanics calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand vibration phenomena are aware of their significance in mechanical design while knowing methods of controlling vibrations.
Prerequisites
Physics 2
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT24SKKT24S
Objective
Students will be able to use CAD's 3-D applications for product modelling purposes.
Content
An introduction to 3-dimensional modelling
Visualisation
Producing drawings
Compositions
Features modelling
Sheet metal products
The Mathematics of Modelling
3D printing
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Prerequisites
Technical Drawing, CAD design
Further information
1 RDI point
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT25SKKT25S
Objective
The student masters various communication situations in studying and working life and develops oral and written communication skills as part of his/her professional competence.
Content
- Basics of communication and responsible communication
- Documentation and use of sources
- Review of language and text management
- Planning, delivering and analysing a speech presentation
- Interaction skills in a group
- Meeting and negotiation skills
- Meeting documents
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student communicates in a variety of ways, both orally and in writing. The student writes excellent factual texts and is fluent in the use of references. The student is able to evaluate realistically his/her own communication and is interested in improving it. The student can work constructively in group communication situations.
Assessment criteria, good (3)
The student copes well both orally and in writing with interaction situations in his/her field. The student writes good factual text and knows how to use references. The student evaluates his/her own communication and identifies areas for improvement. The student actively participates in group communication situations.
Assessment criteria, satisfactory (1)
The student communicates mainly in an understandable way, both orally and in writing. The student writes satisfactory factual texts and tries to use sources to support his/her thinking. The student tries to evaluate his/her own interpersonal skills and participates in group situations.
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKM25SKKM25S
Objective
The student masters various communication situations in studying and working life and develops oral and written communication skills as part of his/her professional competence.
Content
- Basics of communication and responsible communication
- Documentation and use of sources
- Review of language and text management
- Planning, delivering and analysing a speech presentation
- Interaction skills in a group
- Meeting and negotiation skills
- Meeting documents
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student communicates in a variety of ways, both orally and in writing. The student writes excellent factual texts and is fluent in the use of references. The student is able to evaluate realistically his/her own communication and is interested in improving it. The student can work constructively in group communication situations.
Assessment criteria, good (3)
The student copes well both orally and in writing with interaction situations in his/her field. The student writes good factual text and knows how to use references. The student evaluates his/her own communication and identifies areas for improvement. The student actively participates in group communication situations.
Assessment criteria, satisfactory (1)
The student communicates mainly in an understandable way, both orally and in writing. The student writes satisfactory factual texts and tries to use sources to support his/her thinking. The student tries to evaluate his/her own interpersonal skills and participates in group situations.
Enrollment
30.12.2024 - 26.01.2025
Timing
20.10.2025 - 14.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT24SKKT24S
Objective
Mechanical and production engineering students will be able to read professional texts linked to their area of engineering and write technical documents.
The student understands the requirements and effects of global environment in the field of mechanical and production engineering (getting familiar with ISO standards in English).
The student understands the central concepts and terminology within the field of mechanical and production engineering.
The student is able to communicate in English in an international working life.
Content
Technical English as a tool
Applying for work
Structural features of technical English
Building vocabulary for own field of engineering (ISO standards)
Developing reading techniques
Telephoning
Presentation of a company, product, manual or service
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt their language to the needs of working life when writing and speaking using the vocabulary of their field, topics related to current content and versatile sentence structures. The students are proficient in the fundamental terminology of their field and can write about and discuss themes concerning their field of study using the correct terminology. The students' pronunciation and articulation is clear.
Assessment criteria, good (3)
The students are able to produce sentences of basic structure in everyday and working life when writing and speaking. The students recognise and are able to use the fundamental terminology of their field and their pronunciation and articulation is mainly clear, though errors occur.
Assessment criteria, satisfactory (1)
The students are able to produce sentences of simple structure in everyday and working life when writing and speaking though pronunciation and grammar errors occur. The students recognise the fundamental terminology of their field.
Prerequisites
European language assessment framework level B2
Further information
JABÄ 4.1.2023
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT24SRaaKKT24SRaa
Objective
Mechanical and production engineering students will be able to read professional texts linked to their area of engineering and write technical documents.
The student understands the requirements and effects of global environment in the field of mechanical and production engineering (getting familiar with ISO standards in English).
The student understands the central concepts and terminology within the field of mechanical and production engineering.
The student is able to communicate in English in an international working life.
Content
Technical English as a tool
Applying for work
Structural features of technical English
Building vocabulary for own field of engineering (ISO standards)
Developing reading techniques
Telephoning
Presentation of a company, product, manual or service
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt their language to the needs of working life when writing and speaking using the vocabulary of their field, topics related to current content and versatile sentence structures. The students are proficient in the fundamental terminology of their field and can write about and discuss themes concerning their field of study using the correct terminology. The students' pronunciation and articulation is clear.
Assessment criteria, good (3)
The students are able to produce sentences of basic structure in everyday and working life when writing and speaking. The students recognise and are able to use the fundamental terminology of their field and their pronunciation and articulation is mainly clear, though errors occur.
Assessment criteria, satisfactory (1)
The students are able to produce sentences of simple structure in everyday and working life when writing and speaking though pronunciation and grammar errors occur. The students recognise the fundamental terminology of their field.
Prerequisites
European language assessment framework level B2
Further information
JABÄ 4.1.2023
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 30.04.2026
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
Students will know the principles of the FEM and FEM calculations using application programmes.
Content
Principles of the Finite Element Method.
The stages of FEM calculation.
Exercises
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available calculation parameters for the situation. They are able to analyse and simulate structures and to develop systematic methods and calculation instructions for FEM analysis.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply FEM calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students know the basic of FEM and can use analysis software to analyse simple structures. They are aware of the significance of the software's limitations and can verify results produced by the Software.
Prerequisites
Strength of Materials
Further information
3 RDI points
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 30.05.2026
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT23SKKT23S
Objective
Students will know the principles of the FEM and FEM calculations using application programmes.
Content
Principles of the Finite Element Method.
The stages of FEM calculation.
Exercises
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available calculation parameters for the situation. They are able to analyse and simulate structures and to develop systematic methods and calculation instructions for FEM analysis.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply FEM calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students know the basic of FEM and can use analysis software to analyse simple structures. They are aware of the significance of the software's limitations and can verify results produced by the Software.
Prerequisites
Strength of Materials
Further information
3 RDI points
Enrollment
27.09.2025 - 26.10.2025
Timing
27.10.2025 - 28.02.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT25SKKT25S
Objective
Students will be competent in physics required in other courses organised in the school of engineering.
Content
Quantities and unit systems of physics
Motion theory, motion power theory
Work, power and energy
Linear momentum and quantity of motion
Circular and spinning motion
The mechanics of fluids and gases
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse mechanical problems and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the mechanical problems. They are able to divide problem solving into suitable parts and do secondary level equations and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam
Assessment criteria, satisfactory (1)
The students recognise mechanical quantities and units. The students are able to find suitable equations for solving mechanical problems and are proficient in using the required linear equations to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
27.09.2025 - 26.10.2025
Timing
27.10.2025 - 08.03.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- OPE_LUMA, Teknologia
Groups
-
KKM25SKKM25S
Objective
Students will be competent in physics required in other courses organised in the school of engineering.
Content
Quantities and unit systems of physics
Motion theory, motion power theory
Work, power and energy
Linear momentum and quantity of motion
Circular and spinning motion
The mechanics of fluids and gases
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse mechanical problems and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the mechanical problems. They are able to divide problem solving into suitable parts and do secondary level equations and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam
Assessment criteria, satisfactory (1)
The students recognise mechanical quantities and units. The students are able to find suitable equations for solving mechanical problems and are proficient in using the required linear equations to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will know the physical background required in other courses in the school of engineering.
Content
Thermodynamics
Vibration
Wave motion
Acoustics
Optics
Direct current circuit
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems of the topic in hand. They are able to divide problem solving into suitable parts to solve related equations and system of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to recognise the topic's (thermodynamics, electronics and wave motion theory) and quantities and units. They are able to find the equations needed to solve problems within the topic area and can do the required linear equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Physics 1
Enrollment
11.08.2025 - 21.09.2025
Timing
25.08.2025 - 09.11.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KRM24SKRM24S
Objective
Students will know the physical background required in other courses in the school of engineering.
Content
Thermodynamics
Vibration
Wave motion
Acoustics
Optics
Direct current circuit
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems of the topic in hand. They are able to divide problem solving into suitable parts to solve related equations and system of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to recognise the topic's (thermodynamics, electronics and wave motion theory) and quantities and units. They are able to find the equations needed to solve problems within the topic area and can do the required linear equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Physics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT24SKKT24S
Objective
Students will know the physical background required in other courses in the school of engineering.
Content
Thermodynamics
Vibration
Wave motion
Acoustics
Optics
Direct current circuit
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to draw conclusions from the problems of the topic in hand. They are able to divide problem solving into suitable parts to solve related equations and system of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to recognise the topic's (thermodynamics, electronics and wave motion theory) and quantities and units. They are able to find the equations needed to solve problems within the topic area and can do the required linear equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Physics 1
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 31.07.2026
Number of ECTS credits allocated
30 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Miia Rönkkö
- Petri Koponen
- Petteri Laitinen
- Veera Kilpeläinen
- Hannu Tornberg
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
- Arja Sirviö
Groups
-
KKM23SKKM23S
Objective
The aim of the practical training period is to provide students with good post graduation employment opportunities and to familiarise students with working life. Students will gain knowledge of different job tasks, working procedures, devices and professional terminology related to their chosen specialism in a real working environment under supervision. The practical training period takes place during the autumn semester of the fourth study year. The practical training co-ordinator is responsible for informing students of practical training issues together with the head of the degree programme.
Content
A continuous approx five month training period in working life
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Prerequisites
Students must have 135 cr before starting their practical training period.
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
30 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Miia Rönkkö
- Petri Koponen
- Petteri Laitinen
- Hannu Tornberg
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
The aim of the practical training period is to provide students with good post graduation employment opportunities and to familiarise students with working life. Students will gain knowledge of different job tasks, working procedures, devices and professional terminology related to their chosen specialism in a real working environment under supervision. The practical training period takes place during the autumn semester of the fourth study year. The practical training co-ordinator is responsible for informing students of practical training issues together with the head of the degree programme.
Content
A continuous approx five month training period in working life
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Prerequisites
Students must have 135 cr before starting their practical training period.
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
30 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Miia Rönkkö
- Hannu Tornberg
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The aim of the practical training period is to provide students with good post graduation employment opportunities and to familiarise students with working life. Students will gain knowledge of different job tasks, working procedures, devices and professional terminology related to their chosen specialism in a real working environment under supervision. The practical training period takes place during the autumn semester of the fourth study year. The practical training co-ordinator is responsible for informing students of practical training issues together with the head of the degree programme.
Content
A continuous approx five month training period in working life
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Prerequisites
Students must have 135 cr before starting their practical training period.
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Silja Keränen
Groups
-
KKT24SKKT24S
Objective
The aim of this course is to increase the knowledge among different tehcnological solutions for the climate change mitigation.
Content
In this course we focus on the different technological solutions that help in the climate change mitigation. The solutions are from the fields of construction, energy and process engineering.
Content of the course:
- Basics of the ecological sustainability (mandatory)
- Wooden construction
- Energy efficient buildings
- Carbon handprint in the construction
- Low-carbon concrete
- Electric transportation
- Biofuels
- Production of wind power
- Solar energy
- Energy storage
- Utilisation of the waste heat
- Biogas production
- Carbon capture and storage
Materials
Verkko-opintojakson yhteydessä tutustuttavaksi tuleva materiaali.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
An approved performance is obtained when the student has studied the mandatory part of the course and eight other solutions.
Prerequisites
Ilmastonmuutoksen perusteet 1 op (TK00BY96) opintojakson hyväksytty suorittaminen
Further information
Unfortunately this course is only available in Finnish.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Silja Keränen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The aim of this course is to increase the knowledge among different tehcnological solutions for the climate change mitigation.
Content
In this course we focus on the different technological solutions that help in the climate change mitigation. The solutions are from the fields of construction, energy and process engineering.
Content of the course:
- Basics of the ecological sustainability (mandatory)
- Wooden construction
- Energy efficient buildings
- Carbon handprint in the construction
- Low-carbon concrete
- Electric transportation
- Biofuels
- Production of wind power
- Solar energy
- Energy storage
- Utilisation of the waste heat
- Biogas production
- Carbon capture and storage
Materials
Verkko-opintojakson yhteydessä tutustuttavaksi tuleva materiaali.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
An approved performance is obtained when the student has studied the mandatory part of the course and eight other solutions.
Prerequisites
Ilmastonmuutoksen perusteet 1 op (TK00BY96) opintojakson hyväksytty suorittaminen
Further information
Unfortunately this course is only available in Finnish.
Enrollment
30.12.2024 - 26.01.2025
Timing
18.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT23SKKT23S
Objective
Mechanical and production engineering students will develop their intercultural competence so that they are able to recognise cultural differences, understand them and adapt their communication style as required. They will apply their international communication competence and deepen their abilities to work in international and multicultural working life situations involving spoken and written interaction in English.
Content
Concepts of culture and communication
Variables for comparing cultures
Cultural differences in communication
The process of adapting to a culture
Presentation of a company, production and products
Telephone conversations
Written communication
Meeting and negotiations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to recognise the main theories and principles of intercultural communication. They are able to discuss and write about related themes using the correct terminology. Their pronunciation and intonation is clear and they are able to plan and implement a comprehensive and natural presentation on a topic related to their field.
Assessment criteria, good (3)
The students are able to recognise some of the main theories and principles of intercultural communication. They are able to recognise and use basic terminology of the field. Their pronunciation and intonation is to some extent clear though containing errors and they are able to plan and implement a presentation on a topic related to their field.
Assessment criteria, satisfactory (1)
The students are able to recognise the basic terminology of the field. They able to communicate on intercultural issues in writing and orally to some degree. Their pronunciation and intonation is weak. They are able to deliver a presentation of some sort with help on the topic in hand.
Prerequisites
European assessment framework B2:
Proficiency test and Build up Your English course if necessary
Further information
KOOU 12.12.2013
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 31.07.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKM23SKKM23S
Objective
Mechanical and production engineering students will develop their intercultural competence so that they are able to recognise cultural differences, understand them and adapt their communication style as required. They will apply their international communication competence and deepen their abilities to work in international and multicultural working life situations involving spoken and written interaction in English.
Content
Concepts of culture and communication
Variables for comparing cultures
Cultural differences in communication
The process of adapting to a culture
Presentation of a company, production and products
Telephone conversations
Written communication
Meeting and negotiations
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to recognise the main theories and principles of intercultural communication. They are able to discuss and write about related themes using the correct terminology. Their pronunciation and intonation is clear and they are able to plan and implement a comprehensive and natural presentation on a topic related to their field.
Assessment criteria, good (3)
The students are able to recognise some of the main theories and principles of intercultural communication. They are able to recognise and use basic terminology of the field. Their pronunciation and intonation is to some extent clear though containing errors and they are able to plan and implement a presentation on a topic related to their field.
Assessment criteria, satisfactory (1)
The students are able to recognise the basic terminology of the field. They able to communicate on intercultural issues in writing and orally to some degree. Their pronunciation and intonation is weak. They are able to deliver a presentation of some sort with help on the topic in hand.
Prerequisites
European assessment framework B2:
Proficiency test and Build up Your English course if necessary
Further information
KOOU 12.12.2013
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2025 - 21.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
Repeat the high school chemistry curriculum and increase knowledge of environmental chemistry.
Content
Periodic table, mole and reactions
Concentration and pH concept
Acids and bases
Oxidation and reduction
Corrosion
Electrochemistry
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student can analyze problems in the subject area and produce alternative solution methods.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The student can draw conclusions in the problems of the subject area.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student recognizes the basic quantities of the subject area. The student finds the equations needed to solve problems in the subject area and knows how to solve them.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKM23SKKM23S
Objective
Students will be conversant with the usual components used in machine construction and be able to select the appropriate components according to the manufacturer's instructions and/or with the aid of ADP programmes.
Content
Couplings
Bearings
Gears, breaks
Power transfer
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to utilise mechanical component selection with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine.
Assessment criteria, good (3)
The students are able to select and measure structural mechanical components as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to use mechanical component calculation methods based on strength theory in basic situations.
Prerequisites
Strength of Materials
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
09.03.2026 - 10.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SKKT24S
Objective
Students will be conversant with the usual components used in machine construction and be able to select the appropriate components according to the manufacturer's instructions and/or with the aid of ADP programmes.
Content
Couplings
Bearings
Gears, breaks
Power transfer
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to utilise mechanical component selection with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine.
Assessment criteria, good (3)
The students are able to select and measure structural mechanical components as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to use mechanical component calculation methods based on strength theory in basic situations.
Prerequisites
Strength of Materials
Further information
2 RDI points
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 29.05.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
Students will carry out practical mechanical planning tasks and learn to apply acquired theoretical knowledge.
Content
Practical research, development and planning assignments
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently. As members of the project group the students complete all given assignments well, and help and guide other members of the group.
Assessment criteria, satisfactory (1)
The students gain practical knowledge of practical mechanical design tasks while learning to apply theoretical knowledge in them. As members of the project group the students complete all given assignments to a satisfactory degree. They use professional concepts systematically and can work on individual tasks according to the commission.
Prerequisites
Product Development
Further information
The course will be accomplished as R&D studies.
3 RDI points
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT23SKKT23S
Objective
Students will understand the significance of a systematic product planning method and financial issues in product planning.
Content
Systematic mechanical planning
Product planning for flexible and economically viable production
Planning a modular product concept
Reliability and safety
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution for the situation. They are able to develop systematic methods and planning instructions so that the design team can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply mechanical design methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand the methods of systematic mechanical design and are aware of the significance of economic factors in mechanical design.
Prerequisites
Mechanics and Mechanisms
Mechanical Components
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM23SKKM23S
Objective
Students will understand the significance of a systematic product planning method and financial issues in product planning.
Content
Systematic mechanical planning
Product planning for flexible and economically viable production
Planning a modular product concept
Reliability and safety
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution for the situation. They are able to develop systematic methods and planning instructions so that the design team can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different situations in various operational environments. They are able to apply mechanical design methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand the methods of systematic mechanical design and are aware of the significance of economic factors in mechanical design.
Prerequisites
Mechanics and Mechanisms
Mechanical Components
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 31.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKM23SKKM23S
Objective
The student understands the basic principles and methods of vibration measurements, knows some industry standards. The student gains an understanding of work planning and the phenomena that significantly affect it. The student learns the basic principles of work planning.
Content
Concepts and methods of vibration measurements of rotating machines and equipment, standards. Concepts and definitions of work planning.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop the methods of monitoring the operation of machines in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
The student understands the importance of machine control methods in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. The student becomes aware of the importance of machine control methods in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
02.12.2024 - 31.12.2024
Timing
01.01.2026 - 30.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT23SKKT23S
Objective
The student understands the basic principles and methods of vibration measurements, knows some industry standards. The student gains an understanding of work planning and the phenomena that significantly affect it. The student learns the basic principles of work planning.
Content
Concepts and methods of vibration measurements of rotating machines and equipment, standards. Concepts and definitions of work planning.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop the methods of monitoring the operation of machines in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
The student understands the importance of machine control methods in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. The student becomes aware of the importance of machine control methods in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
07.02.2026 - 08.03.2026
Timing
09.03.2026 - 31.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKM23SKKM23S
Objective
The student knows how to create a route for condition monitoring measurements and perform simple measurements of rotating machines and devices.
Content
Laboratory exercises related to vibration measurements of condition monitoring (e.g. balancing, alignment, route measurement planning, analysis of measurements)
The student knows and recognizes the challenges of condition monitoring related to lubricants in industry.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Industrial Maintenance
Condition based monitoring
Condition based monitoring for different industrial applications
Vibrational mechanics
Enrollment
07.02.2026 - 08.03.2026
Timing
09.03.2026 - 29.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT23SKKT23S
Objective
The student knows how to create a route for condition monitoring measurements and perform simple measurements of rotating machines and devices.
Content
Laboratory exercises related to vibration measurements of condition monitoring (e.g. balancing, alignment, route measurement planning, analysis of measurements)
The student knows and recognizes the challenges of condition monitoring related to lubricants in industry.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Industrial Maintenance
Condition based monitoring
Condition based monitoring for different industrial applications
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 22.03.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM23SKKM23S
Objective
Students will understand quality and the concept of quality management as well as how these are linked to business operations. Students will know the most common business quality control operations and be able to analyse and use collected information from quality control systems to develop operations.
Content
Concepts of quality
Quality leadership
Quality control systems
ISO 9000 etc Quality standards
Quality control methods
Sampling methods
Statistical methods
Quality costs
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop quality management operations in different operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of quality management in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They are aware of the significance of quality management in industrial operations.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 19.04.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SKKT24S
Objective
Students will understand quality and the concept of quality management as well as how these are linked to business operations. Students will know the most common business quality control operations and be able to analyse and use collected information from quality control systems to develop operations.
Content
Concepts of quality
Quality leadership
Quality control systems
ISO 9000 etc Quality standards
Quality control methods
Sampling methods
Statistical methods
Quality costs
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to develop quality management operations in different operational environments.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the significance of quality management in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They are aware of the significance of quality management in industrial operations.
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
27.10.2025 - 28.02.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SKKT24S
Objective
Students will understand the link between structural loads and stress levels in a structure and be able to calculate strain in a completed structure in different basic cases and assess the importance of the result.
Content
Introduction
Deformation
Types of strain
Different strain cases
Stability
Fatigue endurance limit
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing the tension of statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine and understand the main factors affecting dynamic certainty.
Assessment criteria, good (3)
The students are able to solve tension problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to strength calculation methods for simple tension and deformation analyses concerning statically defined structures.
Prerequisites
Mechanics and Mechanisms
Structural Materials
Further information
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
20.10.2025 - 28.02.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will understand the link between structural loads and stress levels in a structure and be able to calculate strain in a completed structure in different basic cases and assess the importance of the result.
Content
Introduction
Deformation
Types of strain
Different strain cases
Stability
Fatigue endurance limit
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use calculation methods for analysing the tension of statically defined structures with expertise and can apply their acquired knowledge to solve complex problems. They can use calculation tools with routine and understand the main factors affecting dynamic certainty.
Assessment criteria, good (3)
The students are able to solve tension problems associated with statically defined structures as required. They are able to present their calculations clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to strength calculation methods for simple tension and deformation analyses concerning statically defined structures.
Prerequisites
Mechanics and Mechanisms
Structural Materials
Further information
1 RDI point
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT25SKKT25S
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 09.11.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Virpi Saastamoinen
Groups
-
KKM25SKKM25S
Objective
To partly review and add to high school and vocational college mathematics, with the adoption of disciplined and determined working methods and to develop interaction skills.
Content
Number sets and calculations
Expressions and functions
Equations and systems of equations
Right-angled triangle and scalene triangle
Vectors
Materials
Insinöörin matematiikka, Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari, Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to describe verbal problems using mathematical language and are able to interpret the significance of the results to assignments that arise during their professional studies.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to carry out second degree equations and present them as diagrams. They are proficient in doing equation pairs and systems of equations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are proficient in expanding and simplifying the most common mathematical expressions. They able to form power and radical expressions and can do first degree equations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
18.08.2025 - 21.09.2025
Timing
29.09.2025 - 21.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kari Mikkola
Groups
-
KRM24SKRM24S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KRY24SKRY24S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 09.11.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Katja Komulainen
Groups
-
KKT24SKKT24S
Objective
The student gets to know practical economic mathematics.
The student becomes familiar with practical probability calculation and statistical calculation using e.g. the Excel program.
Content
Examining function descriptors and extreme values
Engineering applications
Materials
Insinöörin matematiikka
Holmlund Eero, Huuskonen Maija, Makkonen Heikki, Surakka Jarkko, Tuomenlehto Ari
Edita
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to analyse the problems of the topic in hand and produce alternative methods of solving them.
A commendable level requires obtaining more than 90% of the maximum points in the exam
Assessment criteria, good (3)
The student has a fluent command of the basic concepts related to economic mathematics and events and knows how to apply them.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The student masters the basic concepts related to economic mathematics and statistics.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Mathematics 1
Mathematics 2
Enrollment
27.09.2025 - 26.10.2025
Timing
27.10.2025 - 14.12.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT25SKKT25S
Objective
The course introduces various equipment components and their identification, selection and procurement. Also, we will get to know the structures of various equipment assemblies
Content
Connecting elements and locks
ISO tolerance system in practice
Bearings and supports
Gaskets
Clutches and brakes
Transmission joints
Installations
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
27.09.2025 - 26.10.2025
Timing
27.10.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKM25SKKM25S
Objective
The course introduces various equipment components and their identification, selection and procurement. Also, we will get to know the structures of various equipment assemblies
Content
Connecting elements and locks
ISO tolerance system in practice
Bearings and supports
Gaskets
Clutches and brakes
Transmission joints
Installations
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 26.10.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT25SKKT25S
Objective
The student understands the importance of calibration and recognizes the factors of measurement uncertainty. The student can also make the most common machine shop measurements and analyze the results.
Content
Concepts of metrology
Calibration
Measurement uncertainty
Measurement accuracy
SI- units
Machine shop measurements and measuring devices
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 26.10.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKM25SKKM25S
Objective
The student understands the importance of calibration and recognizes the factors of measurement uncertainty. The student can also make the most common machine shop measurements and analyze the results.
Content
Concepts of metrology
Calibration
Measurement uncertainty
Measurement accuracy
SI- units
Machine shop measurements and measuring devices
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 26.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Arja Sirviö
Groups
-
KKT25SKKT25S
Objective
Opiskelija ymmärtää Word-, Excel-, PowerPoint-, ja Teams-ohjelmistojen perusteet sekä pystyy käyttämään niitä ammattimaisella otteella itsenäisesti opinnoissaan sekä työelämässä.
Content
Kolmen opintopisteen laajuus kattaa Office-ohjelmistojen Perusteet-, Edistynyt- sekä Pro-tasot.
Perusteet:
- Tekstinkäsittelyn perusteet
- Taulukkolaskennan perusteet
- Diaesitysten perusteet
- Teams ja kokoukseen osallistuminen
Edistynyt:
- Pitkät asiakirjat
- Excelin edistynyt käyttö
- Hyvän esityksen avaimet
Pro:
- Wordin edistynyt käyttö
- PowerPoint-esityksen elävöittäminen
- Data-aineiston analysointi
Materials
Kurssin oppimateriaalit ovat opiskelijalle saatavilla kurssisivustolla.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Opiskelija palauttaa kaikki yhdeksän tehtävää hyväksytysti. Tehtävän hyväksytty suoritus vaatii myös palautteessa mahdollisesti ilmenevät korjaukset.
Further information
Opiskelija saa rekisteröitymisohjeet verkkokurssille sähköpostitse.
Enrollment
05.07.2025 - 03.08.2025
Timing
04.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Arja Sirviö
Groups
-
KKM25SKKM25S
Evaluation scale
0 - 5
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT24SKKT24S
Objective
The student knows the importance of control devices and various automation systems
implementation principles, structures and programming of programmable automation devices
platform.
Content
Basics of digital technology
Switching function
Programmable logics
Logic programming
Materials
Learning material on a learning platform (e.g. DevMoodle)
Device manufacturers' manuals
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses concepts and operating principles related to control systems competently and extensively, and knows how to combine devices into entities used in automatic production.
The student knows how to select and critically evaluate different implementation options for control systems, can present alternative solutions and works as a member of a group, promoting the group's activities.
Assessment criteria, good (3)
The student knows how to name and describe the basic functions of control systems used in automatic production and consistently uses the terminology of the professional field.
The student knows how to apply different implementation options of control systems to automatic production and can justify his choice.
Assessment criteria, satisfactory (1)
The student knows how to name and describe the devices of different control systems and works as a group member, taking the other group members into account.
Prerequisites
Measuring and sensor technology
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student knows the importance of control devices and various automation systems
implementation principles, structures and programming of programmable automation devices
platform.
Content
Basics of digital technology
Switching function
Programmable logics
Logic programming
Materials
Learning material on a learning platform (e.g. DevMoodle)
Device manufacturers' manuals
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses concepts and operating principles related to control systems competently and extensively, and knows how to combine devices into entities used in automatic production.
The student knows how to select and critically evaluate different implementation options for control systems, can present alternative solutions and works as a member of a group, promoting the group's activities.
Assessment criteria, good (3)
The student knows how to name and describe the basic functions of control systems used in automatic production and consistently uses the terminology of the professional field.
The student knows how to apply different implementation options of control systems to automatic production and can justify his choice.
Assessment criteria, satisfactory (1)
The student knows how to name and describe the devices of different control systems and works as a group member, taking the other group members into account.
Prerequisites
Measuring and sensor technology
Enrollment
30.12.2024 - 26.01.2025
Timing
27.10.2025 - 15.02.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKM23SKKM23S
Objective
The student knows the importance of control devices and various automation systems
implementation principles, structures and programming of programmable automation devices
platform.
Content
Basics of digital technology
Switching function
Programmable logics
Logic programming
Materials
Learning material on a learning platform (e.g. DevMoodle)
Device manufacturers' manuals
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses concepts and operating principles related to control systems competently and extensively, and knows how to combine devices into entities used in automatic production.
The student knows how to select and critically evaluate different implementation options for control systems, can present alternative solutions and works as a member of a group, promoting the group's activities.
Assessment criteria, good (3)
The student knows how to name and describe the basic functions of control systems used in automatic production and consistently uses the terminology of the professional field.
The student knows how to apply different implementation options of control systems to automatic production and can justify his choice.
Assessment criteria, satisfactory (1)
The student knows how to name and describe the devices of different control systems and works as a group member, taking the other group members into account.
Prerequisites
Measuring and sensor technology
Enrollment
30.12.2024 - 26.01.2025
Timing
31.12.2025 - 29.05.2026
Number of ECTS credits allocated
15 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Petteri Laitinen
- Sami Räsänen
- Riikka Korhonen
- Kimmo Kemppainen
Groups
-
KKT22SKKT22S
Objective
The aim of the thesis is to develop and demonstrate the students' ability to apply knowledge and skills to specialist assignments linked to their studies. The thesis is usually accomplished for the benefit of working life concerning a topic agreed with the client (commissioning party) and therefore advances the students professional growth. The thesis is therefore a versatile indicator of the student's competence.
Content
Finding and agreeing on a suitable topic
Completion of necessary documentation
Acceptance process
Completion of thesis
Presentation of thesis
Maturity test
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 31.05.2026
Number of ECTS credits allocated
15 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The aim of the thesis is to develop and demonstrate the students' ability to apply knowledge and skills to specialist assignments linked to their studies. The thesis is usually accomplished for the benefit of working life concerning a topic agreed with the client (commissioning party) and therefore advances the students professional growth. The thesis is therefore a versatile indicator of the student's competence.
Content
Finding and agreeing on a suitable topic
Completion of necessary documentation
Acceptance process
Completion of thesis
Presentation of thesis
Maturity test
Evaluation scale
0 - 5
Assessment criteria, approved/failed
To be announced
Further information
15 RDI credits/points
Enrollment
30.12.2024 - 26.01.2025
Timing
31.08.2025 - 31.05.2026
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT22SKKT22S
Objective
The aim of the study course is to give the student an understanding of the stages involved in the thesis process and the readiness to start and complete the thesis process. The student knows how to search for information and write a complete scientific report.
Content
- Requirements related to the thesis
- Ethics related to the thesis
- The stages of the thesis process
- Searching for information and using sources
- Writing
- Project management and research activities
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The praiseworthy text skillfully combines the versatile use of source material and my own chosen point of view. The topic is discussed in a structured way and new aspects are also being developed. The conclusions and considerations are justified very clearly and consistently. The use of language is precise, neat and stylistically consistent. Source markings and the rest of the essay format are finished.
Assessment criteria, good (3)
In a good text, the source material has been used sufficiently extensively and quite expertly. Own and borrowed from sources are clearly distinguished from each other, and the use of sources is natural. The language is good and relatively consistent. Source markings have been made and the text is clear, but there may be some flaws in the markings or other layout.
Assessment criteria, satisfactory (1)
In a satisfactory text, the source material is used rather little or scarcely, and there are clear flaws in its processing. Source markings are missing or unclear. The whole is fragmented or the treatment of the theory is weak. The text has considerable, different and difficult to understand grammatical or structural deficiencies.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.09.2025 - 31.05.2026
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Teija Mursula
Groups
-
KKT22SRaaheKKT22SRaahe
Objective
The aim of the study course is to give the student an understanding of the stages involved in the thesis process and the readiness to start and complete the thesis process. The student knows how to search for information and write a complete scientific report.
Content
- Requirements related to the thesis
- Ethics related to the thesis
- The stages of the thesis process
- Searching for information and using sources
- Writing
- Project management and research activities
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The praiseworthy text skillfully combines the versatile use of source material and my own chosen point of view. The topic is discussed in a structured way and new aspects are also being developed. The conclusions and considerations are justified very clearly and consistently. The use of language is precise, neat and stylistically consistent. Source markings and the rest of the essay format are finished.
Assessment criteria, good (3)
In a good text, the source material has been used sufficiently extensively and quite expertly. Own and borrowed from sources are clearly distinguished from each other, and the use of sources is natural. The language is good and relatively consistent. Source markings have been made and the text is clear, but there may be some flaws in the markings or other layout.
Assessment criteria, satisfactory (1)
In a satisfactory text, the source material is used rather little or scarcely, and there are clear flaws in its processing. Source markings are missing or unclear. The whole is fragmented or the treatment of the theory is weak. The text has considerable, different and difficult to understand grammatical or structural deficiencies.
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 31.05.2028
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKT25SKKT25S
Objective
Osaa tunnistaa, arvioida ja kehittää opiskelutaitojaan ja edistää omaa ja opiskeluyhteisönsä hyvinvointia. Kykenee tunnistamaan ja arvioimaan omaa ammatillista osaamistaan ja sen kehittymistä. Tunnistaa jaksamisensa rajat, osaa hakea tukea ja käyttää saatavilla olevia tukimuotoja. Saa valmiuksia omaksua alakohtaisen ammatti-identiteetin ja sitoutuu työelämän yleisiin periaatteisiin. Ymmärtää oman alansa urakehitysmahdollisuudet.
Content
Perehtyminen amk-opiskeluun
Opiskelutaidot ja -kyvykkyys
Ryhmäytyminen oman opiskeluryhmän kanssa
Oma ammatillinen kehittyminen ja urasuunnittelu
Oman osaamisen reflektointi sekä sen sanoittaminen
Materials
Reppu-kurssi
Muu opettajan osoittama materiaali
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Hyväksytty suoritus:
Starttipaketin suorittaminen
Aktiivinen osallistuminen tuutoritunneille
Sovittujen oppimistehtävien suorittaminen
Tulo-, kehitys- ja päättökeskusteluihin osallistuminen ja lomakkeiden täyttäminen
Hylätty suoritus:
Edelliset suoritukset eivät täyty
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.05.2028
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
- Hannu Tornberg
Groups
-
KKM25SKKM25S
Objective
Osaa tunnistaa, arvioida ja kehittää opiskelutaitojaan ja edistää omaa ja opiskeluyhteisönsä hyvinvointia. Kykenee tunnistamaan ja arvioimaan omaa ammatillista osaamistaan ja sen kehittymistä. Tunnistaa jaksamisensa rajat, osaa hakea tukea ja käyttää saatavilla olevia tukimuotoja. Saa valmiuksia omaksua alakohtaisen ammatti-identiteetin ja sitoutuu työelämän yleisiin periaatteisiin. Ymmärtää oman alansa urakehitysmahdollisuudet.
Content
Perehtyminen amk-opiskeluun
Opiskelutaidot ja -kyvykkyys
Ryhmäytyminen oman opiskeluryhmän kanssa
Oma ammatillinen kehittyminen ja urasuunnittelu
Oman osaamisen reflektointi sekä sen sanoittaminen
Materials
Reppu-kurssi
Muu opettajan osoittama materiaali
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Hyväksytty suoritus:
Starttipaketin suorittaminen
Aktiivinen osallistuminen tuutoritunneille
Sovittujen oppimistehtävien suorittaminen
Tulo-, kehitys- ja päättökeskusteluihin osallistuminen ja lomakkeiden täyttäminen
Hylätty suoritus:
Edelliset suoritukset eivät täyty
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 12.04.2026
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SKKT24S
Objective
The student knows the basics and components of pneumatics and hydraulics and knows how to apply them in machine automation devices and knows maintenance-related issues.
Content
Producing and transferring compressed air
Compressed air components
Design and control of compressed air systems
Hydraulic energy
Hydraulic components
Hydraulic system design and control
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student uses professional concepts expertly and knows how to apply professional knowledge appropriately in different situations.
The student is able to choose the best possible and available pneumatics/hydraulics method for each situation. The student is able to develop methods so that they are suitable for use in different situations in an economical way.
Assessment criteria, good (3)
The student uses professional concepts fluently and widely and knows how to evaluate the applicability of methods in different tasks in different operating environments.
The student understands the economic importance of pneumatics/hydraulics in industrial operations.
Assessment criteria, satisfactory (1)
The student recognizes the main methods of pneumatics/hydraulics and their fields of application and uses professional concepts consistently.
The student becomes aware of the importance of knowing pneumatics/hydraulics methods in industrial operations.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
Students will be able plan and implement a project together with its documentation, using different methods and as part of a team. They will understand the significance of project and development work and the differences between research projects and development work and tasks based on everyday thought.
Content
Structure and stages of a project
Funding
Groups and teams
Meetings procedure and communication
Communal idea generation methods
Methods for field-specific development work
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 31.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will be able plan and implement a project together with its documentation, using different methods and as part of a team. They will understand the significance of project and development work and the differences between research projects and development work and tasks based on everyday thought.
Content
Structure and stages of a project
Funding
Groups and teams
Meetings procedure and communication
Communal idea generation methods
Methods for field-specific development work
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Enrollment
30.12.2024 - 26.01.2025
Timing
20.10.2025 - 21.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
The student gets a practical feel for project organization and management, using advanced project management tools.The student understands what the project consists of and what matters are related to working in the project and managing it.The student can outline the phases of project-based activities, understand the related terminology and can assess any risks related to the project. The student completes project work in which the learned knowledge is applied in a practical research or development task.
Content
A research or development task defined by the customer, where the use of modern software is applied in the organization of operations and/or the solution of a problem.
The project:
- Organizational models
- Design and implementation
- Risk analysis
- Documentation / communication during the project
- Conclusion and follow-up
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Basics of Project Work 1
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 26.04.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
The student gets a practical feel for project organization and management, using advanced project management tools.The student understands what the project consists of and what matters are related to working in the project and managing it.The student can outline the phases of project-based activities, understand the related terminology and can assess any risks related to the project. The student completes project work in which the learned knowledge is applied in a practical research or development task.
Content
A research or development task defined by the customer, where the use of modern software is applied in the organization of operations and/or the solution of a problem.
The project:
- Organizational models
- Design and implementation
- Risk analysis
- Documentation / communication during the project
- Conclusion and follow-up
Evaluation scale
0 - 5
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Basics of Project Work 1
Enrollment
30.12.2024 - 26.01.2025
Timing
20.10.2025 - 14.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
The student learns about mechanical and chemical unit processes. The student gets to know heat and mass transfer techniques. On the basis of this information, the student creates a whole of industrial production processes.
Content
Mechanical unit processes
Chemical unit processes
Heat transfer technologies
Transfer techniques
Total industrial processes
Industry and environment
Materials
Lectures and exercises.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student comprehensively understands the unit processes and can form overall processes independently based on them. The student can calculate math problems independently.
Assessment criteria, good (3)
The student understands the unit processes and can form overall processes based on them. The calculation tasks are successful. topics.
Assessment criteria, satisfactory (1)
The student understands some of the unit processes and can form overall processes based on them with assistance.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 31.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student learns about mechanical and chemical unit processes. The student gets to know heat and mass transfer techniques. On the basis of this information, the student creates a whole of industrial production processes.
Content
Mechanical unit processes
Chemical unit processes
Heat transfer technologies
Transfer techniques
Total industrial processes
Industry and environment
Materials
Lectures and exercises.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The student comprehensively understands the unit processes and can form overall processes independently based on them. The student can calculate math problems independently.
Assessment criteria, good (3)
The student understands the unit processes and can form overall processes based on them. The calculation tasks are successful. topics.
Assessment criteria, satisfactory (1)
The student understands some of the unit processes and can form overall processes based on them with assistance.
Enrollment
30.08.2025 - 28.09.2025
Timing
29.09.2025 - 14.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT25SKKT25S
Objective
The student understands the functional and economic importance of materials in the manufacture, cost structure and use of products. The student knows the basic concepts of material engineering and learns to search for and find the necessary information and to apply this to the identification and selection of material, taking into account the requirements of the application. The course also explores the potential uses of materials, quality issues and the principles of material selection.
Content
Metals, steel
The common features of metals
The choice of material
Materials testing methods
Identification of materials
Other materials (technical plastics, technical ceramics)
Materials
Tunnilla ja oppimisympäristössä annettu materiaali.
In support of studies:
literature: Koivisto, K., Laitinen, E., Niinimäki, M., Tiainen, T., Tiilikka, P., Tuomikoski, J., Konetekniikan materiaalioppi
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Students demonstrate a comprehensive understanding of structural materials, material identification and material choices and the factors that affect them, and are able to apply the lessons learned independently in assignments. The tasks have been carried out with high quality and the answers show familiarity with the topic and self-motivated and critical reflection.
Assessment criteria, good (3)
Students have a good understanding of the basics of structural materials and master the identification of materials. The student is able to make material choices and is able to apply the studied things in assignments. The tasks have been carried out with high quality and the answers show familiarity with the topic and spontaneous reflection.
Assessment criteria, satisfactory (1)
The student has gained basic knowledge of the basics of structural materials and is able to identify materials and make material choices. Tasks require more in-depth study of the topic and self-reflection.
Further information
1 RDI point
Enrollment
30.08.2025 - 28.09.2025
Timing
29.09.2025 - 31.12.2025
Number of ECTS credits allocated
4 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM25SKKM25S
Objective
Students will gain an in depth overview of the economic significance of materials in product manufacturing, cost structure and use.
Content
The common features of metals
Materials testing methods
Metals
The general principles of polymers
Technical plastics
Technical ceramics
Materials
Tunnilla annettu materiaali
Opintojen tueksi:
Kirjallisuus: Koivisto, K., Laitinen, E., Niinimäki, M., Tiainen, T., Tiilikka, P., Tuomikoski, J., Konetekniikan materiaalioppi
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use the property databases of different materials with expertise and can apply their acquired knowledge to solve problems. They can use comparison tools with routine.
Assessment criteria, good (3)
The students are able to assess the costs of the lifelong use of different structural materials as required. They are able to present comparisons clearly and systematically.
Assessment criteria, satisfactory (1)
The students are able to choose machine construction materials as required under normal conditions. They understand the restrictions of use of structural materials.
Further information
1 RDI point
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 31.12.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Scheduling groups
- KAMK Avoin AMK 1 (Size: 0. Open UAS: 0.)
Groups
-
AAMKAvoin AMK
Small groups
- KAMK Open UAS 1
Evaluation scale
0 - 5
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 26.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.
Content
Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions
Materials
Material assigned by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:
Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.
Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.
An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback
Prerequisites
Robotics
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 29.05.2026
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
The student is able to use the industrial robotics simulation systems in the design and programming of a robot cell.
Content
Creating and programming a simulation model for an industrial robot system.
Materials
Material given by the teacher
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
20.10.2025 - 21.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKM23SKKM23S
Objective
Students will develop their oral and writing skills in Finland's second offcial language specifically to aid their own professional development. Students will practise speaking Swedish in everyday communication situations as well as being able to discuss professional issues in Swedish face to face and on the phone. Students will also be able to find and use information in Swedish concerning their own specific field.
Content
Central vocabulary and communication situations for mechanical and production engineering students
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt language to the needs of working life using the vocabulary of their field, topics related to current content and versatile sentence structures. They are proficient in the basic terminology of the field. The students are able to plan and deliver a comprehensive and natural presentation on a topic related to their field. Grammar and pronunciation errors are rare.
Assessment criteria, good (3)
The students are able to produce basic sentence structures when speaking and writing in the most common situations encountered in everyday and working life. The students are able to recognise and use the basic terminology of the field. The students are able to plan and deliver a fairly fluent oral presentation on a topic related to their field, using support material. Grammar and pronunciation errors occur from time to time.
Assessment criteria, satisfactory (1)
The students are able to produce simple sentences in writing and orally in the most common situations encountered in everyday and working life. The students are able to recognise basic terminology of working life and are able to plan and deliver an oral presentation on a topic related to their field using support material though grammar and pronunciation errors occur.
Further information
BÄJA 25.2.2022
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 19.04.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT24SKKT24S
Objective
Students will develop their oral and writing skills in Finland's second offcial language specifically to aid their own professional development. Students will practise speaking Swedish in everyday communication situations as well as being able to discuss professional issues in Swedish face to face and on the phone. Students will also be able to find and use information in Swedish concerning their own specific field.
Content
Central vocabulary and communication situations for mechanical and production engineering students
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt language to the needs of working life using the vocabulary of their field, topics related to current content and versatile sentence structures. They are proficient in the basic terminology of the field. The students are able to plan and deliver a comprehensive and natural presentation on a topic related to their field. Grammar and pronunciation errors are rare.
Assessment criteria, good (3)
The students are able to produce basic sentence structures when speaking and writing in the most common situations encountered in everyday and working life. The students are able to recognise and use the basic terminology of the field. The students are able to plan and deliver a fairly fluent oral presentation on a topic related to their field, using support material. Grammar and pronunciation errors occur from time to time.
Assessment criteria, satisfactory (1)
The students are able to produce simple sentences in writing and orally in the most common situations encountered in everyday and working life. The students are able to recognise basic terminology of working life and are able to plan and deliver an oral presentation on a topic related to their field using support material though grammar and pronunciation errors occur.
Further information
BÄJA 25.2.2022
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 05.04.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Jaana Bäckman
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will develop their oral and writing skills in Finland's second offcial language specifically to aid their own professional development. Students will practise speaking Swedish in everyday communication situations as well as being able to discuss professional issues in Swedish face to face and on the phone. Students will also be able to find and use information in Swedish concerning their own specific field.
Content
Central vocabulary and communication situations for mechanical and production engineering students
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply and adapt language to the needs of working life using the vocabulary of their field, topics related to current content and versatile sentence structures. They are proficient in the basic terminology of the field. The students are able to plan and deliver a comprehensive and natural presentation on a topic related to their field. Grammar and pronunciation errors are rare.
Assessment criteria, good (3)
The students are able to produce basic sentence structures when speaking and writing in the most common situations encountered in everyday and working life. The students are able to recognise and use the basic terminology of the field. The students are able to plan and deliver a fairly fluent oral presentation on a topic related to their field, using support material. Grammar and pronunciation errors occur from time to time.
Assessment criteria, satisfactory (1)
The students are able to produce simple sentences in writing and orally in the most common situations encountered in everyday and working life. The students are able to recognise basic terminology of working life and are able to plan and deliver an oral presentation on a topic related to their field using support material though grammar and pronunciation errors occur.
Further information
BÄJA 25.2.2022
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 31.10.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- Veera Kilpeläinen
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
The student knows how to plan, market and implement an event open to the public. After completing the course, the student will be able to:
- act as an event assistant
- takes responsibility for carrying out the tasks assigned to him
-see your own importance in the success of the event
- knows how to perform according to his role in the tasks that belong to the event
Content
Event planning
Legal requirements, event safety and environmental responsibilities
Event preparation and implementation
Marketing and information
Collection and processing of feedback
Learning diary and Reporting
Materials
Material in Reppu
Evaluation scale
0 - 5
Prerequisites
No requirements.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 31.10.2025
Number of ECTS credits allocated
2 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Construction and Civil Engineering
- Bachelor’s Degree in Mechanical Engineering
- Bachelor’s Degree in Information and Communication Technology
Teachers
- Veera Kilpeläinen
- Kimmo Kemppainen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student knows how to plan, market and implement an event open to the public. After completing the course, the student will be able to:
- act as an event assistant
- takes responsibility for carrying out the tasks assigned to him
-see your own importance in the success of the event
- knows how to perform according to his role in the tasks that belong to the event
Content
Event planning
Legal requirements, event safety and environmental responsibilities
Event preparation and implementation
Marketing and information
Collection and processing of feedback
Learning diary and Reporting
Materials
Material in Reppu
Evaluation scale
0 - 5
Prerequisites
No requirements.
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT25SKKT25S
Objective
The student can read and prepare working and assembly drawings for mechanical engineering. In addition, he knows how to sketch and draw working drawings of simple pieces and assemblies of small entities. The student knows how to use CAD software in 2D design and knows
the possibilities of computer-aided design.
Content
Standards and their meaning
Lines and texts
Projections and axonometry
Sketching
Surgery
Dimensioning and tolerances
Use of industry-specific notations, symbols and diagrams
2D CAD
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students know how to use a wide range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work with others as a team to achieve common goals.
Assessment criteria, good (3)
The students are able to name and describe the methods and principles of technical drawing and can apply them appropriately and with justification in the design context.
Assessment criteria, satisfactory (1)
The students know how to use a comprehensive range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work as part of a group to achieve common goals.
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
02.07.2025 - 31.07.2025
Timing
25.08.2025 - 31.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKM25SKKM25S
Objective
The student can read and prepare working and assembly drawings for mechanical engineering. In addition, he knows how to sketch and draw working drawings of simple pieces and assemblies of small entities. The student knows how to use CAD software in 2D design and knows
the possibilities of computer-aided design.
Content
Standards and their meaning
Lines and texts
Projections and axonometry
Sketching
Surgery
Dimensioning and tolerances
Use of industry-specific notations, symbols and diagrams
2D CAD
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students know how to use a wide range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work with others as a team to achieve common goals.
Assessment criteria, good (3)
The students are able to name and describe the methods and principles of technical drawing and can apply them appropriately and with justification in the design context.
Assessment criteria, satisfactory (1)
The students know how to use a comprehensive range of technical drawing methods expertly for design purposes, can choose and critically assess different technical drawing techniques and work as part of a group to achieve common goals.
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 12.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKT23SKKT23S
Objective
The student learns about breakdowns, fault diagnostics and the choice of different methods of condition monitoring.
Content
Technical methods of condition monitoring, failure, fault diagnostics, planning of condition monitoring.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 12.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Riikka Korhonen
Groups
-
KKM23SKKM23S
Objective
The student learns about breakdowns, fault diagnostics and the choice of different methods of condition monitoring.
Content
Technical methods of condition monitoring, failure, fault diagnostics, planning of condition monitoring.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
The student is able to develop industrial maintenance operations in different operating environments.
A commendable level requires that you get more than 90% of the maximum points in the exam.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments.
They understands the importance of industrial operation in industrial operations.
A good level requires that you get about 70 - 80% of the maximum points in the exam.
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions. They becomes aware of the importance of industrial operation in industrial operations.
A satisfactory level requires that approximately 50 - 60% of the maximum points in the exam are obtained.
Prerequisites
Industrial Maintenance
Maintenance planning and controlling
Vibrational mechanics
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 31.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Riikka Korhonen
Groups
-
KKM23SKKM23S
Objective
Students will know the basics of pipeline planning and be able to select and survey the components required in the pipeline and understand the official procedures concerning pipelines.
Content
Pipeline plans and drawings
The basics of flow technology
Pumps and pipeline equipment
Preparation and installation of pipelines
Inspections and official regulations
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to plan a pipeline system with necessary its necessary supports and to select suitable components and pumps for the system.
Assessment criteria, good (3)
The students are able to draw isometric diagrams of pipes and do technical flow calculations to determine the size of pipes and pipelines.
Assessment criteria, satisfactory (1)
The students are able to interpret drawings of pipelines and are familiar with the most common components of a pipeline as well as the principles of operation of pumps. They are aware of the official regulations and procedures concerning the use of pressure vessels.
Prerequisites
Introduction to Maintenance
Further information
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 29.03.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
- Riikka Korhonen
Groups
-
KKT24SKKT24S
Objective
Students will know the basics of pipeline planning and be able to select and survey the components required in the pipeline and understand the official procedures concerning pipelines.
Content
Pipeline plans and drawings
The basics of flow technology
Pumps and pipeline equipment
Preparation and installation of pipelines
Inspections and official regulations
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to plan a pipeline system with necessary its necessary supports and to select suitable components and pumps for the system.
Assessment criteria, good (3)
The students are able to draw isometric diagrams of pipes and do technical flow calculations to determine the size of pipes and pipelines.
Assessment criteria, satisfactory (1)
The students are able to interpret drawings of pipelines and are familiar with the most common components of a pipeline as well as the principles of operation of pumps. They are aware of the official regulations and procedures concerning the use of pressure vessels.
Prerequisites
Introduction to Maintenance
Further information
2 RDI points
Enrollment
07.02.2026 - 08.03.2026
Timing
09.03.2026 - 29.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Sami Räsänen
Groups
-
KKM23SKKM23S
Objective
The student knows how to use the machine vision systems of industrial robotics.
Content
2D and 3D machine vision
Machine vision systems integrated into industrial robots
Materials
Material given by the teacher.
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Robotics
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 21.12.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Antti Rimpiläinen
Groups
-
KKM23SKKM23S
Objective
The student understands the importance of entrepreneurship in society and knows the basic concepts of entrepreneurship. The student understands the prerequisites for a profitable business and knows how to prepare simple profitability analyzes and calculations. The student knows the basics of the most important operations of a productive enterprise.
Content
The meaning of business, the basic concepts and operating environment of business, business planning, the basics of business economics and accounting, profitability calculation, the basic functions of a manufacturing company (production, management and sales and marketing), the basics of company law and a simulation exercise of the operation of a manufacturing company.
Materials
Material to be distributed at lectures and in Moodle, as well as a course book.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions.
Prerequisites
Ei esitietovaatimuksia.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 26.04.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Antti Rimpiläinen
Groups
-
KKT24SKKT24S
Objective
The student understands the importance of entrepreneurship in society and knows the basic concepts of entrepreneurship. The student understands the prerequisites for a profitable business and knows how to prepare simple profitability analyzes and calculations. The student knows the basics of the most important operations of a productive enterprise.
Content
The meaning of business, the basic concepts and operating environment of business, business planning, the basics of business economics and accounting, profitability calculation, the basic functions of a manufacturing company (production, management and sales and marketing), the basics of company law and a simulation exercise of the operation of a manufacturing company.
Materials
Material to be distributed at lectures and in Moodle, as well as a course book.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions.
Prerequisites
Ei esitietovaatimuksia.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 10.05.2026
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Antti Rimpiläinen
Groups
-
KKT24SRaaKKT24SRaa
Objective
The student understands the importance of entrepreneurship in society and knows the basic concepts of entrepreneurship. The student understands the prerequisites for a profitable business and knows how to prepare simple profitability analyzes and calculations. The student knows the basics of the most important operations of a productive enterprise.
Content
The meaning of business, the basic concepts and operating environment of business, business planning, the basics of business economics and accounting, profitability calculation, the basic functions of a manufacturing company (production, management and sales and marketing), the basics of company law and a simulation exercise of the operation of a manufacturing company.
Materials
Material to be distributed at lectures and in Moodle, as well as a course book.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments
Assessment criteria, satisfactory (1)
The students are able to use professional concepts systematically and are able to work on various tasks according to instructions.
Prerequisites
Ei esitietovaatimuksia.
Enrollment
30.12.2024 - 26.01.2025
Timing
01.01.2026 - 22.03.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Harri Honkanen
Groups
-
KKT24SKKT24S
Objective
This course provides students with an understanding of the technology and features of field buses used in robotics and industrial automation. The students will use bus configuration tools and diagnostics.
Content
Industrial Ethernet
Profibus
CanOpen
Ethernet Powerlink
Profinet
Bus solutions for microcontrollers such as SPI, I2C, 1-wire
General overview of bus structures, main operating principles, bus data communication technology, bus traffic monitoring, analysis and testing
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to apply different bus solutions when designing and implementing industrial data communications solutions. Excellent performance in the lab exercises and practical assignment-proven applied competence in bus solutions.
Assessment criteria, good (3)
The students are able to develop different bus solutions when designing and implementing industrial data communications solutions.Pass for lab exercises and practical assignment-proven mastered competence in bus solutions.
Assessment criteria, satisfactory (1)
The students understand the significance of bus solutions in designing and implementing industrial data communications solutions. Pass for lab exercises and practical assignment-proven competence to understand bus solutions.
Assessment criteria, approved/failed
To be announced.
Further information
Lectures and laboratory exercises. Laboratory sessions are compulsory.
1 RDI point
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKT23SKKT23S
Objective
The student gets an understanding of the planning of production and production processes of a company engaged in production activities, as well as an understanding of what production, production planning, production modeling are and which tools can be used to manage, plan and model production.
The student learns about the possibilities of production virtual modeling in production planning, and learns the basic working techniques for planning and carrying out economically profitable production for practical situations.
Content
- Virtual production planning - Simulation
- The perspective of production and manufacturing for production planning
- Concepts and principles of modeling
- Modeling processes and defining requirements
- Creating a virtual model
- Modeling and programming
- Kinematics of the virtual model
- Analyzing the operation of the model
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
26.07.2025 - 24.08.2025
Timing
25.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Ville Karppinen
Groups
-
KKM23SKKM23S
Objective
The student gets an understanding of the planning of production and production processes of a company engaged in production activities, as well as an understanding of what production, production planning, production modeling are and which tools can be used to manage, plan and model production.
The student learns about the possibilities of production virtual modeling in production planning, and learns the basic working techniques for planning and carrying out economically profitable production for practical situations.
Content
- Virtual production planning - Simulation
- The perspective of production and manufacturing for production planning
- Concepts and principles of modeling
- Modeling processes and defining requirements
- Creating a virtual model
- Modeling and programming
- Kinematics of the virtual model
- Analyzing the operation of the model
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
02.07.2025 - 31.07.2025
Timing
01.08.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student gets an understanding of the operation of a manufacturing company and the planning of production processes, and learns to use modern software for planning and developing economically profitable production.
The content of the course provides the basic skills to work as a production planning professional who has the skills to design production solutions that meet the demands of today's international markets competitively.
Content
Layout planning
Factory Logistics & Material Flow Optimization
Plant Simulation & Throughput Optimization
- Analyze Production Systems with 2D and 3D Statistical Simulation
- Eliminate Bottlenecks and Streamline Throughput
- Optimize Energy Usage for Improved Performance
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Edeltävyysehto: Tuotannon virtuaalimallinnus -kurssi suoritettuna.
Enrollment
07.02.2026 - 08.03.2026
Timing
09.03.2026 - 17.05.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
The student gets an understanding of the operation of a manufacturing company and the planning of production processes, and learns to use modern software for planning and developing economically profitable production.
The content of the course provides the basic skills to work as a production planning professional who has the skills to design production solutions that meet the demands of today's international markets competitively.
Content
Layout planning
Factory Logistics & Material Flow Optimization
Plant Simulation & Throughput Optimization
- Analyze Production Systems with 2D and 3D Statistical Simulation
- Eliminate Bottlenecks and Streamline Throughput
- Optimize Energy Usage for Improved Performance
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Course feedback
The limit of an approved performance is 70% of the maximum points.
Prerequisites
Edeltävyysehto: Tuotannon virtuaalimallinnus -kurssi suoritettuna.
Enrollment
20.09.2025 - 19.10.2025
Timing
20.10.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student understands the importance of customer needs recognition and implementation of creative working techniques in product development.
The student understands the purpose of leadership in product development and is able to apply product development techniques.
The student understands the importance of product development and the life-cycle concept of a product in successful business.
The student deepens their knowledge and becomes familiar with the topic through assignments and examples.
Content
- Planning of product strategy and program
- Product development project
- Techniques of customer needs recognition
- Product specification
- Applying creative work techniques in product development
- Evaluation and analyzing of drafts
- Product architecture
- Innovations and protecting them
Evaluation scale
0 - 5
Assessment criteria, approved/failed
Return of learning assignments
Self-assessment
Course feedback
The limit of an approved performance is 70% of the maximum points.
Enrollment
02.12.2025 - 31.12.2025
Timing
01.01.2026 - 30.04.2026
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKM23SKKM23S
Objective
The student learns about the position of product development in industrial operations and knows the different stages of a product development project. The student understands the importance of systematic product development procedures, documentation, and manufacturing and installation-friendly planning in product development.
Content
- Product architecture
- Detail planning
- Product design and usability
- Production costs and their effects
- Product lifecycle management and documentation in product development
- Product testing and prototypes
- The Machinery Directive and other key standards
- Inventions and their protection
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently and know the stages of commercialisation. They are able to apply methods of commercialisation during the different stages of the development process and are able to carry out tasks required in the process as members of the planning group.
Assessment criteria, satisfactory (1)
The students understand the significance of systematic commercialisation in industrial business operations.
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
20.09.2025 - 19.10.2025
Timing
20.10.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
The student learns about the position of product development in industrial operations and knows the different stages of a product development project. The student understands the importance of systematic product development procedures, documentation, and manufacturing and installation-friendly planning in product development.
Content
- Product architecture
- Detail planning
- Product design and usability
- Production costs and their effects
- Product lifecycle management and documentation in product development
- Product testing and prototypes
- The Machinery Directive and other key standards
- Inventions and their protection
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to transform an idea in a development project into a commercial product sample independently. The students are able to develop systematic methods and instructions for the planning group so it can produce optimal solutions cost-effectively.
Assessment criteria, good (3)
The students use a wide range of professional concepts fluently and know the stages of commercialisation. They are able to apply methods of commercialisation during the different stages of the development process and are able to carry out tasks required in the process as members of the planning group.
Assessment criteria, satisfactory (1)
The students understand the significance of systematic commercialisation in industrial business operations.
Assessment criteria, approved/failed
The limit of an approved performance is 70% of the maximum points.
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
30.12.2024 - 26.01.2025
Timing
01.08.2025 - 31.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SRaaKKT24SRaa
Objective
Student will learn basic principles of leading the work and understands the action of people who are working in different organizations. Student will know methods for leading, different structures of organization and the principles of behavior as a team member and also as an individual. Knowing those basics will help student developing efficiency of the work withing financial points of view. Student can also reflect own action in respect of other team members. Student can perceive some industrial viewpoint in leading the work.
Content
- Roles and tasks as a leader
- Guidelines and theories for leading
- Individual in teamwork and leading self
- Groups and teams in organizations
- Organization culture and its impacts on leading
- LEAN and daily management
- Teamleading in heavy industry and its challenges
- Expert lectures
Materials
We will announce it during the course.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
Student can use concepts of leading fluently. He/She can also analyze work as an individual and team member and make well-grounded suggestions to developing work leading.
Assessment criteria, good (3)
Student can explain and portray different leading conceps. He/She also knows possibilities and weaknesses in work leading.
Assessment criteria, satisfactory (1)
Student can determine and use basic concepts in work leading.
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 26.10.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petteri Laitinen
Groups
-
KKT23SKKT23S
Objective
The student gets an understanding of electric energy production, transmission, distribution systems, requirements set by the operating conditions of electricity and protection methods. The student knows how to choose motors, starting and control methods for various electrical applications. He knows how to calculate the price comparisons of different forms of energy and electricity tariffs, and he masters power calculations.
Content
Electrical accidents and their emergency first aid
Electricity operating conditions and protection methods
Electric energy production, transmission and distribution systems
Electricity pricing
Electric motor technology and electric motor drives
Electrical work safety training is included in the course
Materials
Learning material on a learning platform (e.g. DevMoodle)
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
In addition to the above, the student also knows how to acquire information independently and apply the knowledge she/he has acquired and learned in a versatile way.
Assessment criteria, good (3)
In addition to the above, the student can also apply the knowledge she/he has learned in dimensioning.
Assessment criteria, satisfactory (1)
The student understands the basics and importance of electrical safety, as well as the basics of dimensioning motor drives.
Prerequisites
Basics of electrical engineering
Enrollment
30.12.2024 - 26.01.2025
Timing
26.08.2025 - 31.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT23SKKT23S
Objective
Students will gain a general overview of how manufacturing units are made and which devices and machines are used for this purpose.
Content
Casting technique
Moulding techniques
Sheet and coupling techniques
Machine cutting
Coating metods
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible available manufacturing technology method for a given situation. The students are able to develop methods for efficient use in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the economic significance of manufacturing technology in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to recognise the main methods of manufacturing technology and their fields of use and can use professional concepts systematically. They are aware of the significance of knowing manufacturing technology methods in industrial operations.
Further information
Partly accomplished as R&D studies
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Kimmo Kemppainen
Groups
-
KKT24SKKT24S
Objective
Students will gain a general overview of how manufacturing units are made and which devices and machines are used for this purpose.
Content
Casting technique
Moulding techniques
Sheet and coupling techniques
Machine cutting
Coating metods
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible available manufacturing technology method for a given situation. The students are able to develop methods for efficient use in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the economic significance of manufacturing technology in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to recognise the main methods of manufacturing technology and their fields of use and can use professional concepts systematically. They are aware of the significance of knowing manufacturing technology methods in industrial operations.
Further information
Partly accomplished as R&D studies
1 RDI point
Enrollment
30.12.2024 - 26.01.2025
Timing
25.08.2025 - 14.12.2025
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Hannu Tornberg
Groups
-
KKT24SRaaKKT24SRaa
Objective
Students will gain a general overview of how manufacturing units are made and which devices and machines are used for this purpose.
Content
Casting technique
Moulding techniques
Sheet and coupling techniques
Machine cutting
Coating metods
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible available manufacturing technology method for a given situation. The students are able to develop methods for efficient use in different situations.
Assessment criteria, good (3)
The students are able to use professional concepts fluently and are able to carry out different tasks in various operational environments. They understand the economic significance of manufacturing technology in industrial operations.
Assessment criteria, satisfactory (1)
The students are able to recognise the main methods of manufacturing technology and their fields of use and can use professional concepts systematically. They are aware of the significance of knowing manufacturing technology methods in industrial operations.
Further information
Partly accomplished as R&D studies
1 RDI point
Enrollment
20.09.2025 - 19.10.2025
Timing
20.10.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKT23SKKT23S
Objective
Students will understand vibrations while being able to analyse the size of a vibration, use vibration management planning methods and measure vibrations.
Content
The parts of a vibrating system
The natural vibration for one degree of freedom
The harmonic forced vibration of one degree of freedom
The general forced movement for one degree of freedom
The equations of motion for a system of several degrees of freedom
The natural vibration for a system of several degrees of freedom
The forced vibration of several degrees of freedom
Studies of practical vibration by iLearnVibration software.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution taking vibration into account. They are able to analyse vibration phenomena and to develop systematic methods and planning instructions on avoiding vibration problems.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different tasks and various operational environments. They are able to apply vibration mechanics calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand vibration phenomena are aware of their significance in mechanical design while knowing methods of controlling vibrations.
Prerequisites
Physics 2
Further information
The course will partly be accomplished as R&D studies.
2 RDI points
Enrollment
20.09.2025 - 19.10.2025
Timing
20.10.2025 - 31.12.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Teknologia
Teaching languages
- Finnish
Degree programmes
- Bachelor’s Degree in Mechanical Engineering
Teachers
- Petri Koponen
Groups
-
KKM23SKKM23S
Objective
Students will understand vibrations while being able to analyse the size of a vibration, use vibration management planning methods and measure vibrations.
Content
The parts of a vibrating system
The natural vibration for one degree of freedom
The harmonic forced vibration of one degree of freedom
The general forced movement for one degree of freedom
The equations of motion for a system of several degrees of freedom
The natural vibration for a system of several degrees of freedom
The forced vibration of several degrees of freedom
Studies of practical vibration by iLearnVibration software.
Evaluation scale
0 - 5
Assessment criteria, excellent (5)
The students are able to use professional concepts with expertise and can apply their professional competence as required in different situations. They are able to select the best possible and available structural solution taking vibration into account. They are able to analyse vibration phenomena and to develop systematic methods and planning instructions on avoiding vibration problems.
Assessment criteria, good (3)
The students are able to use a wide range of professional concepts fluently and are able to assess the suitability of methods for different tasks and various operational environments. They are able to apply vibration mechanics calculation methods to achieve optimal structural solutions.
Assessment criteria, satisfactory (1)
The students understand vibration phenomena are aware of their significance in mechanical design while knowing methods of controlling vibrations.
Prerequisites
Physics 2
Further information
The course will partly be accomplished as R&D studies.
2 RDI points