|
Modelling Materials with Finite Element Simulations (Lecture) (FEM 2 (L))
- Lecturer
- Prof. Dr. Michael Zaiser
- Details
- Vorlesung
1 cred.h, benoteter certificate, ECTS studies, ECTS credits: 1,5
nur Fachstudium, Sprache Englisch
Time and place: every 2. week Wed 13:15 - 14:45, 2.018-1 Besprechungsraum Technikum 2; comments on time and place: Lecture and tutorial will be held either alternating or as a block of 2x 1.5h - as required.
- Fields of study
- WPF MWT-MA-WSI 1-4 (ECTS-Credits: 1,5)
- Prerequisites / Organisational information
- Prerequisite for this course is the course ‘Foundations of Finite Element Simulations’ or equivalent.
- Contents
- This course is the follow-up course of "Foundations of Finite Element Simulations” and considers advanced continuum mechanical topics of material modeling with FEM. We introduce relevant thermodynamical concepts for deriving analytical models for elasto-plasticity and visco-elasticity as well as models for brittle fracture. These models are then formulated in terms of algorithms which are suitable for numerical implementation in form of FEM material routines. The tutorials will guide the students to apply these concepts using already existing FEM simulation software, which will then be extended with self-written material routines and used to predict mechanical behavior of metals, polymers and biomaterials as well as fracture of ceramics. A critical review of their own results and comparison with experimental data will help the students to understand strengths and limitations of the respective FEM material models.
- ECTS information:
- Credits: 1,5
- Additional information
- Expected participants: 20, Maximale Teilnehmerzahl: 50
- Assigned lectures
- UE: Modelling Materials with Finite Element Simulations (Tutorial)
-
Lecturer: Dipl.-Ing. Stefan Liebenstein
Time and place: Mon 08:15 - 09:45, 2.018-2 Seminarraum Technikum 2
- Verwendung in folgenden UnivIS-Modulen
- Startsemester WS 2017/2018:
- Advanced Materials Simulation (CE_AdvMatSci)
- Kernfach Werkstoffsimulation (COMM)
- Multiscale Materials Simulation (CE_MuSim)
- Werkstoffsimulation (M2/M3) (COMM)
- Department: Chair for Materials Simulation
|
|
|