The reader is briefly reminded that there are no models, yet available, capable of truly quantitative deformation texture predictions for arbitrary strain paths, although such models are clearly needed for accurate finite element (FE) simulations of metal forming processes. It is shown that for cold rolling of steel, the classical models (full-constraints and relaxed constraints Taylor, self-consistent) are clearly outperformed by new 2-point or n-point models, which take grain-to-first-neighbour interactions into account. Three models have been used: the 2-point "Lamel"-models (two variants) and the micromechanical finite element-model developed by Kalidindi et al. (J. Mech. Phys. Sol. 40 (1992) 537). Extensive comparisons of the results o...
Several multilevel plasticity models that make use of the crystallographic texture have been develop...
International audienceA simple and general new approach to predict deformation texture evolution dur...
Two micro–macro scale transition models, namely the ALAMEL and visco-plastic self-consistent (VPSC) ...
Two drawing steels were cold rolled to 70% reduction. Their hot rolling and cold rolling textures we...
The paper reports on a recent effort to develop a statistical (or Monte-Carlo) model for quantitativ...
Different modeling strategies are tested for the prediction of texture development and microscopic s...
Focus is on the multi-level character of existing or currently developed models for polycrystal defo...
Micromechanical models aimed at simulating deformation textures and resulting plastic anisotropy nee...
Metallic alloys with enhanced mechanical properties are required for example by the car industry. Th...
An additional length scale is introduced which is not considered by the existing Taylor or viscoplas...
Finite element models for metal forming and models for the prediction of forming limit strains shoul...
The ability of three different crystal plasticity finite element models to predict deformation textu...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
A hierarchical multilevel method is presented for the plastic deformation of polycrystalline materia...
The plastic anisotropy of textured polycrystalline aggregates is investigated using three micro-macr...
Several multilevel plasticity models that make use of the crystallographic texture have been develop...
International audienceA simple and general new approach to predict deformation texture evolution dur...
Two micro–macro scale transition models, namely the ALAMEL and visco-plastic self-consistent (VPSC) ...
Two drawing steels were cold rolled to 70% reduction. Their hot rolling and cold rolling textures we...
The paper reports on a recent effort to develop a statistical (or Monte-Carlo) model for quantitativ...
Different modeling strategies are tested for the prediction of texture development and microscopic s...
Focus is on the multi-level character of existing or currently developed models for polycrystal defo...
Micromechanical models aimed at simulating deformation textures and resulting plastic anisotropy nee...
Metallic alloys with enhanced mechanical properties are required for example by the car industry. Th...
An additional length scale is introduced which is not considered by the existing Taylor or viscoplas...
Finite element models for metal forming and models for the prediction of forming limit strains shoul...
The ability of three different crystal plasticity finite element models to predict deformation textu...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
A hierarchical multilevel method is presented for the plastic deformation of polycrystalline materia...
The plastic anisotropy of textured polycrystalline aggregates is investigated using three micro-macr...
Several multilevel plasticity models that make use of the crystallographic texture have been develop...
International audienceA simple and general new approach to predict deformation texture evolution dur...
Two micro–macro scale transition models, namely the ALAMEL and visco-plastic self-consistent (VPSC) ...