Approximate method formulating plastic potentials of porous sheet metals with non-quadratic anisotropy
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DOI码:10.1016/j.ijmecsci.2017.01.041
发表刊物:International Journal of Mechanical Sciences
关键字:porous material; sheet metal; non-quadratic plastic anisotropy; finite element method.
摘要:In this paper, a new approximate method was proposed to formulate the plastic potentials of the porous sheet metals with non-quadratic anisotropic matrix. Theoretical and simulated results have indicated that the plastic anisotropy of the matrix could influence mechanical response and damage evolution of the ductile porous materials. Nevertheless, previous analytical approaches were mostly focusing on the porous plastic potentials with matrix obeying Von-Mises or Hill’s quadratic yield criterion, which could not accurately describe the plastic behavior of some sheet metals exhibiting strong anisotropy. Other few works tried to formulate the plastic potentials with non-quadratic matrix by simply redefining the equivalent stress in the Gurson-type models without rigorous deductions. In this work, however, a first-order approximating method with optimizing analyses was introduced to establish the acceptable approximation of plastic potentials with non-quadratic anisotropic matrix. Based on this new approximating method, a planar porous model with non-quadratic anisotropy was proposed. In this model, the anisotropic constitutive relation of the matrix was characterized by the Yld2000-2d yield criterion, which has proved to be capable in modeling complex plastic behaviors of the anisotropic sheet metals. The formulating procedures were based on the rigorous micromechanics derivations with upper bound analyses. Afterwards, the proposed model was verified by comparing the theoretical predicted yield loci with the numerical simulated ones using the voided unit cell model. Furthermore, this model was then implemented into ABAQUS as user subroutine VUMAT to simulate the mechanical responses of the porous sheets with high strength DP steel matrices under uniaxial / biaxial tensile conditions.
合写作者:Min Wan,Zhigang Liu,Bolin Ma
第一作者:Zhengyang Cai
论文类型:期刊论文
通讯作者:Xiangdong Wu
学科门类:工学
文献类型:J
卷号:123
页面范围:198-213
ISSN号:0020-7403
是否译文:否
发表时间:2017-02-07
收录刊物:SCI