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Original scientific paper

Numerical analysis of accuracy for evolutionary anisotropic plasticity models

Vedrana Cvitanić ; Faculty of Electrical Engineering, Mechanical Engineering and Naval Architecture (FESB)University of Split, Croatia
Maja Kovačić ; Faculty of Electrical Engineering, Mechanical Engineering and Naval Architecture (FESB)University of Split, Croatia
Antonio Vladislavić ; Faculty of Electrical Engineering, Mechanical Engineering and Naval Architecture (FESB)University of Split, Croatia


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page 255-267

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Abstract

In the present paper, elasto-plastic constitutive formulations based on the orthotropic four parametric quadratic Hill (1948) or non-quadratic Karafillis-Boyce (1993) stress function and distortional evolution of the yield function/plastic potential are presented. The anisotropy parameters of the analyzed yield functions/plastic potentials are introduced as functions of the equivalent plastic strain. The formulations are developed and analyzed considering experimental data for the selected steel sheet sample with reported significant variation of the instantaneous Lankford parameter with straining. Predictions of the directional dependences and variations with straining of the yield stress ratios and Lankford parameters obtained by the presented descriptions are considered. The algorithmic formulations of the analyzed constitutive descriptions are derived by application of the implicit return mapping algorithm. In order to estimate accuracy of the developed algorithms, iso-error maps are calculated and analyzed.

Keywords

sheet metals; constitutive modeling; anisotropy evolution; implicit return mapping; iso-error maps

Hrčak ID:

165663

URI

https://hrcak.srce.hr/165663

Publication date:

12.9.2016.

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