The numerical characterisation of material behaviour enables the application of new materials as construction elements. To solve such problems, the phenomenological continuum mechanics and the corresponding mechanical experiments are applied. In order to obtain the maximum amount of information from the experiments, the test can be observed thermomechanically using an infrared camera. The measurement of the temperature during a mechanical process detects a self-heating effect of the sample in the case of inelastic deformations. In order to analyse this coupled effect numerically, the system can be expanded thermomechanically by evaluating energy approaches. For this purpose, the quality of the simulated temperature evolution depends on the selected energy concepts. The performance
Thermomechanical Analysis and Simulation of different adiabatic stress states for material characterisation
Abstract
Keywords
abaqus
computer simulation
simulation and optimization
Fields of study
Name supervisor
Lukas Richter
E-mail
richtluk@b-tu.de
Name of Department/Faculty/School
Chair of Engineering mechanics and machine dynamics/Mechanical Engineering, Electrical and Energy Systems/BTU Cottbus Senftenberg
Name of the host University
Brandenburg University of Technology Cottbus – Senftenberg (BTU)
EUNICE partner e-mail of destination Research
thomas.elfert@b-tu.de
Country
Germany
Thesis level
Master
Minimal language knowledge requisite
English B1
German B1
Thesis mode
Hybrid
Start date
Length of the research internship
9 months
Financial support available (other than E+)
Maybe