Material Technology (5 cr)

Code: TKKP0220-3011

General information

Enrollment: 04.08.2025 - 21.08.2025
Registration for introductions has not started yet.

Timing: 25.08.2025 - 19.12.2025
The implementation has not yet started.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Face-to-face

Unit: School of Technology

Campus: Main Campus

Teaching languages: Finnish

Seats: 20 - 45

Degree programmes: Bachelor's Degree Programme in Mechanical Engineering

Teachers: Sami Koponen

Groups: ZJATKN25S1
Avoin amk, tekn, amk-väylä, Konetekniikka, p; TKN25SB
Konetekniikka (AMK); TKN25SA
Konetekniikka (AMK); TKN25S1
Konetekniikka (AMK)

Course: TKKP0220

No reservations found for realization TKKP0220-3011!

Evaluation scale

0-5

Objective

Competence in Material Technology is needed in material selection, when analyzing material failures and selecting different production methods.
You will learn the basic terminology and diagrams and fracture surfaces related to basic material terminology. You will learn how the environment will affect on different materials and also the effect of material selection on sustainable development. You will be familiar with materials used in engineering, technical properties and most common applications. You also understand and the effects of different materials on the environment.

Knowledge and understanding;
You are familiar with materials used in engineering and how inner structure and changes in structure will affect material properties.You will understand the effect of environment in use of materials.

Investigations and information retrieval:
You have the ability to make information retrieval related to material technology. You can make experimental tests and work in laboratory environment.

Content

Material inner structure, mechanical properties and the effect of inner structure on properties. Effect of working and heat treatment on properties. Environmental effect on materials and the effect of materials on the environment. Material groups and laboratory work.

Materials

Lecture materials.
Koivisto et al. Materials Science in Mechanical Engineering, Edita Publishing, 2010, 12th-13th edition. ISBN: 978-951-37-5259-0

Teaching methods

- Lectures
- Learning tasks
- Independent study
- Laboratory work

Lectures, learning tasks based on application. Learning assignments are done and returned both individually and in groups. Laboratory exercises.
Free-form anonymous feedback is collected in the middle of the course.

The implementation of the course is based on contact and distance learning (videos). During the course, students make learning assignments, which are returned as agreed. The course includes laboratory works.

If the student has not attended the classes of the starting week and does not return the assignment 1 by the deadline of 6.10.2024, he/she will be removed from the course and will not be able to participate in this implementation.

The responsible and transparent use of AI applications is encouraged in this course. Instructions for using artificial intelligence can be found in chapter 3.2 (https://help.jamk.fi/raportointiohje/fi/3-kirjoittamisprosessi/tekoalyn-kaytto-oppimistehtavissa-ja-opinnaytetyossa/) of the thesis reporting instructions. If necessary, the instructions for each learning assignment contain more detailed information on how to use it in more detail in this course.

Exam schedules

Three intermediate exams (as contacts) and two re-exams (as contacts).

Student workload

52h lectures, 3h laboratories and distance work 80h, of which 30h for independent learning tasks, 12h for preparing laboratory reports in groups and 38h for independent study.

Assessment criteria, satisfactory (1)

Assessment is based on mid-term exams, assignments and laboratory work.

Sufficient (1): You are familiar with basic terminology, but you can not interpret diagrams and fracture surfaces. You know how environment affects materials.

Satisfactory (2): You are familiar with basic terminology, you can interpret diagrams and fracture surfaces and you are familiar with environmental affects on materials, but you can not interpret them in practice.

Assessment criteria, good (3)

Good (3): You are familiar with basic terminology, you can interpret diagrams and fracture surfaces and you are familiar with environmental affects on materials, but you can not benefit the knowledge when selecting materials and interpreting failures.

Very good (4): You master basic terminology, you can interpret diagrams and fracture surfaces and you are familiar with environmental affects on materials. You can benefit the knowledge quite well when selecting materials and interpreting failures.

Assessment criteria, excellent (5)

Excellent (5): You master basic terminology, you can interpret diagrams and fracture surfaces and you are familiar with environmental affects on materials. You can benefit the knowledge well when selecting materials and interpreting failures.

Qualifications

No prerequisite.

Further information

In addition to the midterm/exam results, the assessment of the course is based on graded learning tasks and laboratory reports.