The role of tension-compression asymmetry of the plastic flow on ductility and damage accumulation of porous polycrystals

J.L. Alves , M.C. Oliveira , L.F. Menezes , Oana Cazacu
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引用次数: 2

Abstract

The influence of the tension-compression asymmetry of the plastic flow, due to intrinsic single-crystal deformation mechanisms, on porosity evolution and the overall ductility of voided metallic polycrystals is assessed. To this end, detailed micromechanical finite-element analyses of three-dimensional unit cells containing a single initially spherical cavity are carried out. The plastic flow of the matrix (fully-dense material) is described by a criterion that accounts for strength-differential effects induced by deformation twinning of the constituent grains of the metallic polycrystalline materials. The dilatational response of porous polycrystals are calculated for macroscopic axisymmetric tensile loadings corresponding to a fixed value of the stress triaxiality and the two possible values of the Lode parameter. It is shown that damage accumulation, and ultimately ductility of the porous polycrystals are markedly different as compared to the case when the matrix is governed by von Mises criterion. Most importantly, a direct correlation is established between the macroscopic material parameter k that is intimately related to the particularities of the plastic flow of the matrix and the rate of damage accumulation.

塑性流动的拉压不对称对多孔多晶延性和损伤积累的影响
研究了由单晶固有变形机制引起的塑性流的拉压不对称对多孔性演化和多孔金属多晶整体延性的影响。为此,对包含单个初始球形腔的三维单元胞进行了详细的微力学有限元分析。基体(全致密材料)的塑性流动是用一个标准来描述的,该标准考虑了由金属多晶材料的组成颗粒的变形孪晶引起的强度差异效应。根据应力三轴性的固定值和Lode参数的两个可能值,计算了多孔多晶在宏观轴对称拉伸载荷下的膨胀响应。结果表明,与采用von Mises准则时相比,多孔多晶的损伤积累和最终的延展性明显不同。最重要的是,建立了与基体塑性流动特性和损伤积累速率密切相关的宏观材料参数k之间的直接关联。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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