Course MV-TM-86008-K-7
Fracture mechanics (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
- purpose, assumptions, and development of fracture mechanics
- fundamentals of the theory of elasticity
- notch problems with different notch shapes
- crack problems
- asymptotic approach
- intensity concepts
- energetic approach
- mixed-mode fracture mechanics
- elasto-plastic fracture mechanics
- plastic fracture mechanics
- fracture resistance curve
Competencies / intended learning achievements
Students are able to
- state fundamental principles and methods of fracture mechanics
- state cause and type of a crack
- describe the behavior of a crack
- numerically implement and analyze fracture mechanics problems
Literature
- Gross, Seelig: Bruchmechanik – Mit einer Einführung in die Mikromechanik, Springer Verlag
- Kienzler: Konzepte der Bruchmechanik, Vieweg
- Kanninen, Popelar: Advanced Fracture Mechanics, Oxford Engineering Science Series
Materials
Blackboard/overhead, beamer, slides, auxiliary sheets. For further information and course materials please consider the corresponding OLAT-course.
Requirements for attendance (informal)
Basic knowledge in applied mechanics and higher mathematics
Requirements for attendance (formal)
NoneReferences to Course [MV-TM-86008-K-7]
| Module | Name | Context | |
|---|---|---|---|
| [MV-TM-168-M-7] | Fracture mechanics | P: Obligatory | 2V, 3.0 LP |
| [PHY-SP-4-M-7] | Schwerpunktmodul Technische Mechanik | WP: Obligation to choose | 2V, 3.0 LP |
Notes on the module handbook of the department Mechanical and Process Engineering
Ausnahmen: