Mechanical Metallurgy
- Faculty
Faculty of Engineering and Computer Science
- Version
Version 1 of 14.02.2026.
- Module identifier
11B2350
- Module level
Bachelor
- Language of instruction
German
- ECTS credit points and grading
5.0
- Module frequency
only summer term
- Duration
1 semester
- Overall workload
The total workload for the module is 150 hours (see also "ECTS credit points and grading").
- Teaching and learning methods
Lecturer based learning Workload hours Type of teaching Media implementation Concretization 45 Lecture - 15 Laboratory activity - Lecturer independent learning Workload hours Type of teaching Media implementation Concretization 15 Preparation/follow-up for course work - 30 Exam preparation - 45 Work in small groups -
- Graded examination
- oral exam
- Ungraded exam
- Field work / Experimental work
- Literature
- R. Bürgel: Festigkeitslehre und Werkstoffmechanik, Band 2, Vieweg, 2005.
- G. Gottstein: Physikalische Grundlagen der Materialkunde, Springer-Verlag, 2014.
- J. Rösler, H. Harders, M. Bäker: Mechanisches Verhalten der Werkstoffe, Vieweg + Teubner, 2019.
- G. E. Dieter: Mechanical Metallurgy, McGraw-Hill, 1986.
- Applicability in study programs
- Sustainable Materials Technology and Product Development
- Sustainable Materials Technology and Product Development B.Sc. (01.09.2025)
- Sustainable Materials Technology and Product Development in Practise Network
- Sustainable Materials Technology and Product Development in Practise Network B.Sc. (01.09.2025)
- Mechanical Engineering (Bachelor)
- Mechanical Engineering B.Sc. (01.09.2025)
- Mechanical Engineering in Practical Networks
- Mechanical Engineering in Practical Networks B.Sc. (01.03.2026)
- Automotive Engineering (Bachelor)
- Automotive Engineering B.Sc. (01.09.2025)
- Person responsible for the module
- Mola, Javad
- Teachers
- Mola, Javad