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Anisotropic strain hardening behavior in simple shear for cube textured aluminum alloy sheets |
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| Authors: | J.W. Yoon F. Barlat J.J. Gracio E. Rauch |
| Affiliation: | aMaterials Science Division, Alcoa Technical Center, 100 Technical Drive, Alcoa Center, PA 15069-0001, United States bCenter for Mechanical Technology and Automation, University of Aveiro, Aveiro 3810, Portugal cLaboratoire de Génie Physique et Mécanique des Matériaux, ENSPG-INPG (ESA CNRS 5010), BP 46, 38402 Saint-Martin d’Hères Cedex, France |
| Abstract: | Finite element (FE) simulations of the simple shear test were conducted for 1050-O and 6022-T4 aluminum alloy sheet samples. Simulations were conducted with two different constitutive equations to account for plastic anisotropy: Either a recently proposed anisotropic yield function combined with an isotropic strain hardening law or a crystal plasticity model. The FE computed shear stress–shear strain curves were compared to the experimental curves measured for the two materials in previous works. Both phenomenological and polycrystal approaches led to results consistent with the experiments. These comparisons lead to a discussion concerning the assessment of anisotropic hardening in the simple shear test. |
| Keywords: | Simple shear test Strain hardening Plastic anisotropy Yield function Crystal plasticity |
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