Course MV-TM-86017-K-4
Micromechanics (2V, 3.0 LP)
Course Type
SWS | Type | Course Form | CP (Effort) | Presence-Time / Self-Study | |
---|---|---|---|---|---|
2 | V | Lecture | 3.0 CP | 28 h | 62 h |
(2V) | 3.0 CP | 28 h | 62 h |
Basedata
Contents
- defects in materials
- Eshelby solution for inclusions and inhomogeneities
- analytical homogenization
- numerical homogenization
Competencies / intended learning achievements
Students are able to
- model defect in materials
- state the properties of the Eshelby solution
- apply the Eshelby solution to inclusions and inhomogeneities
- compare and apply analytical homogenization methods
- state and apply numerical homogenization methods
Literature
- D. Gross, Th. Seelig: Bruchmechanik - Mit einer Einführung in die Mikromechanik, Springer
Materials
Blackboard, print and digital media
Requirements for attendance (informal)
Basic knowledge in applied mechanics and higher mathematics
Requirements for attendance (formal)
None
References to Course [MV-TM-86017-K-4]
Module | Name | Context | |
---|---|---|---|
[MV-TM-100-M-4] | Selected Topics of Mechanics | WP: Obligation to choose | 2V, 3.0 LP |
Notes on the module handbook of the department Mechanical and Process Engineering
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