Proceedings ArticleDOI
General Orthotropic Yield Functions Based on Linear Stress Deviator Transformations
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In this article, two non-quadratic yield functions for orthotropic sheet metals based on linear transformations of the stress deviator components are presented, which are convex and are formulated in terms of the general (3D) stress state.Abstract:
Two non‐quadratic yield functions for orthotropic sheet metals based on linear transformations of the stress deviator components are presented. Both yield functions are convex and are formulated in terms of the general (3D) stress state. The first yield function contains 18 adjustable anisotropy parameters which may be calculated from selected mechanical input data such as directional in‐plane stresses, r‐values, equibiaxial data and out‐of‐plane yield stresses (obtained e.g. from polycrystal plasticity calculations). For situations where fewer input parameters are available a second yield function containing 13 adjustable anisotropy parameters is proposed. The predictive capabilities of both yield functions are demonstrated by modelling the plastic anisotropy of aluminum alloy sheets.read more
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Elasticity and Plasticity of Large Deformations
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Journal ArticleDOI
New convex yield functions for orthotropic metal plasticity
Holger Aretz,Frédéric Barlat +1 more
TL;DR: In this article, two new yield functions for orthotropic sheet metals are proposed based on the established concept of multiple linear transformations of the stress deviator, which are able to account for planar and three-dimensional stress states.
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Latent hardening and plastic anisotropy evolution in AA6060 aluminium alloy
TL;DR: In this article, an extruded AA6060 alloy is tested in uniaxial tension in different directions and the anisotropy of the alloy is found to evolve considerably throughout the deformation.
Journal ArticleDOI
An evaluation of some recent yield criteria for industrial simulations of sheet forming processes
TL;DR: In this article, two yield criteria for anisotropic metal sheets, in the literature denoted Yld2000 and BBC2000, respectively, are found to be very well suited for industrial use.