(*) Unfortunately this information is not available in english.
Workload
Education level
Study areas
Responsible person
Hours per week
Coordinating university
3 ECTS
B2 - Bachelor's programme 2. year
Mechatronics
Bernhard Sonderegger
2 hpw
Johannes Kepler University Linz
Detailed information
Original study plan
Bachelor's programme Mechatronics 2025W
Learning Outcomes
Competences
Students are able to understand the main fundamentals within the theory of materials (micro-structure, properties, areas of use) for technical applications in the field of mechatronics and mechanical engineering. The fundamentals are built upon basic principles of natural science (physics, chemistry) in order to demonstrate cross-links and foster deeper understanding.
Skills
Knowledge
- Interpret the microstructure of alloys (K1)
- Interpret phase diagrams (K2)
- Understand the physical foundation of mechanical properties of materials (K3)
- Understand the fundamentals of physical properties of materials (K4)
- Basics of metallic materials and allyoing with related to materials for mechanical and electrical engineering (electr. conductors and magnets)
- Production and further processing of metals
- Destructive and nondistructive testing
- Ferrous materials
- Non-ferrous materials, organic materials
- Plastic materials, electrical conductors and magnetic materials
Criteria for evaluation
Written exam
Methods
Classroom teaching with lecture notes
Language
German
Study material
Weißbach: Werkstoffkunde
Bargel/Schulze: Werkstoffkunde
Seidel/Hahn: Werkstofftechnik
Reissner: Werkstoffkunde für Bachelors
Roos/Maile: Werkstoffkunde für Ingenieure
Fischer/Hofmann/Spindler: Werkstoffe in der Elektrotechnik
Menges, Haberstroh, Michaeli, Schmachtenberg: Menges Werkstoffkunde Kunststoffe
Changing subject?
No
Further information
Are given in lecture
Corresponding lecture
(*)MEBPAVOWSME: VO Werkstoffe der Mechatronik (3 ECTS)
