202.650 Multiscale Material Modeling
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2023S, UE, 2.0h, 2.0EC, to be held in blocked form


  • Semester hours: 2.0
  • Credits: 2.0
  • Type: UE Exercise
  • Format: Presence

Learning outcomes

After successful completion of the course, students are able to independently adapt computer codes for multiscale material modelling, and to apply them for quantifying the behavior of given material systems.

Subject of course

Application of methods learned in VO - 202.649 to concrete problems using mathematical software (Matlab, Mathematica).

Teaching methods

-  Scientific discussion with the students regarding the development of a code for multi-scale material modeling.

-  Independent adaptation and application of the code by the students to concrete problems and preparation of a corresponding written report

-  Subsequent discussion of the adapted code and the results

Mode of examination

Written and oral

Additional information

At the beginning of the semester, an appointment survey is created in which students can enter their availability with regard to possible lecture dates.

Three UE units will then be offered in TISS.

In order to get access to the TUWEL course from the start of the semester, a non-binding electronic registration for the course "202.650 Multiscale Material Modeling" in TISS is required.

Information exchange between lecturers and students also takes place via the TUWEL course for the course, where course materials are also made available. This includes lecture notes, the presentation slides for the exercise lectures, the specification sheet of the homework example.



Course dates

Wed10:00 - 12:0014.06.2023Hörsaal 15 Übung
Fri10:00 - 12:0016.06.2023Seminarraum AA 02 – 1 Übung
Mon13:00 - 15:0019.06.2023Seminarraum AA 02 – 1 Übung
Course is held blocked

Examination modalities

Written and oral

Course registration

Begin End Deregistration end
24.01.2023 08:00 30.03.2023 08:00 30.03.2023 08:00



No lecture notes are available.

Previous knowledge

advanced knowledge in applied mathematics and mechanics advisable