Application of crystal plasticity to modeling the deformation behavior of sheet metal mesocrystals

Research output: Contributions to collected editions/worksArticle in conference proceedingsResearchpeer-review

Authors

In this work a material model formulation is presented, based on an algorithmic flow rule for small elastic strain, small time steps and plastic incompressibility based on finite kinematics. This leads to an explicit algorithm which is used for a crystal-plasticity-based model formulation for anisotropic elastic ideal viscoplastic materials. This model is applied to simulate the sheet metal specimens with large grains subjected to tensile tests. The experimental results for a bcc Fe-3%Si sample loaded incrementally in tension are taken from literature. The deformation of the individual grains have been measured as well as the local orientation after each loading step. These results are compared to the obtained simulation results of the deformation. Simulations are performed with crystallographic glide on either {110} or {112} systems or both systems simultaneously. First results showed, if no hardening is included the results are already in good agreement, which shows the importance of predicting initially active glide systems correctly.
Original languageEnglish
Title of host publicationFifth International Conference Multiscale Materials Modeling - MMM 2010 : Proceedings : October 4-8, 2010, Freiburg, Germany
Number of pages4
Volume5
PublisherFraunhofer Verlag
Publication date2010
Pages447 – 450
ISBN (print)978-3-8396-0166-2, 3-8396-0166-5
Publication statusPublished - 2010
Externally publishedYes
Event5th International Conference on Multiscale Materials Modelling - MMM 2010 - Freiburg, Germany
Duration: 04.10.201008.10.2010
Conference number: 5
https://www.worldcat.org/title/proceedings-of-the-fifth-international-conference-multiscale-materials-modeling-mmm2010-october-4-8-2010-freiburg-germany/oclc/775080644&referer=brief_results