Finite element analysis for material sciences

Ingenieurwissenschaften und Informatik

Version 5.0 vom 30.01.2019

11M0653

Finite Element Analysis for Material Sciences

Angewandte Werkstoffwissenschaften (M.Sc.)

4

Finite Element Analysis (FEA) is an important tool for modeling the characteristics of components under mechanical and thermal loading. Within this module especially the material properties and fracture mechanical aspects of loaded components are considered. Coupled thermal and structural analysis is also considered.

1. Continuum mechanical and heat transfer basic principles of finite element analysis
2. Coupled (multiphysics) thermal and structural analysis, contact problems
3. Application of material laws: elastic, hyperelastic, plastic and visco-elastic
4. Parameters of linear elastic fracture mechanics and their evaluation: stress intensity factor, fracture driving force and J-integral

Wissensverbreiterung
Students having successfully completed this module have available broad knowledge using finite element analysis for material science problems
Wissensvertiefung
Students having successfully completed this module
.. have broad and integrated knowledge about material laws and fracture mechanical concepts and their use within finite element analysis
.. can assess the possibilities and limitations of computer aided modeling
K?nnen - instrumentale Kompetenz

K?nnen - kommunikative Kompetenz

K?nnen - systemische Kompetenz

Lecture and exercises using FEA software; team work and beamer presentation of results

higher mathematics; continuum mechanics; mechanics of materials

Bourdon, Rainer

Boklage, Alexander

5

Raabe, D. Computational Materials Sciences, Wiley-VCH, 2001

Mase, G.E., Continuum Mechanics, Mc Graw Hill, 1981

Temam, R.M., Miranville, A.M., Mathematical Modeling in Continuum Mechanics, Cambridge Univ. Press, 2005

Hausarbeit

gem?? aktueller Studienordnung

autonomous preparation and presentation of a finite element analysis

1 Semester

Nur Wintersemester

Englisch