The application of multiscale modelling for the prediction of plastic anisotropy and deformation textures

Van Houtte, Paul;Van Bael, A;Seefeldt, M;Delannay, Laurent
(2005) 14th International Conference on Textures of Materials — Location: Leuven(Belgium) (11.July.2005)

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  • Van Houtte, PaulUCLouvain
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  • Van Bael, A
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  • Seefeldt, M
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  • Author
Abstract
The paper focuses on the multi-level character of existing or currently developed models for polycrystal deformation. A general multilevel frame is presented, which can be applied to models for the simulation of plastic anisotropy to be implemented in FE codes for the simulation of metal forming processes, or to models for the simulation of deformation textures. A short overview is presented of two-level models ranging from the full-constraints Taylor model to the crystal-plasticity finite element models, including the description of a few recent and efficient models (GIA and ALAMEL). Validation efforts based on experimental cold rolling textures obtained for steel and aluminium alloys are discussed. Finally a recent three-level model which also takes the microscopic level (dislocation substructure) is discussed.
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Van Houtte, P., Van Bael, A., Seefeldt, M., & Delannay, L. (2005). The application of multiscale modelling for the prediction of plastic anisotropy and deformation textures. Materials Science Forum, 495-497, 31-41. https://hdl.handle.net/2078.5/140489 (Original work published 2005)