The Relationship Between Average Grain Profile Heights and Plastic Strains in Nickel Polycrystals Under Tensile Plastic Loading

Volume 9: Mechanics of Solids, Structures, and Fluids Pub Date : 2018-11-09 DOI:10.1115/IMECE2018-88197

K. Balusu, Haiying Huang

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Abstract

We investigate the relationship between the average profile height and the average plastic strain of a grain in a polycrystalline material under plastic tensile strain using Crystal Plasticity Finite Element Method (CPFEM). The simulation consists of using an anisotropic grain embedded in an isotropic sample undergoing tensile plastic deformation. 150 different lattice orientations for the embedded anisotropic grain are used to represent all possible grain orientations. We found that plastic strain in the loading direction is not related to the surface profile height. However, the plastic strains in the direction normal to the surface and the transverse direction are linearly proportional to the average profile heights, irrespective of the grain orientation. The magnitude of the plastic strain in the direction normal to the surface decreases with increasing surface profile height. It is vice versa for plastic strains in the transverse direction. These results establish a possibility of determining a grain’s plastic strains from the profile height.

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拉伸塑性载荷下镍多晶平均晶粒轮廓高度与塑性应变的关系

采用晶体塑性有限元法研究了多晶材料中晶粒在塑性拉伸应变作用下的平均轮廓高度与平均塑性应变之间的关系。该模拟是将各向异性晶粒嵌入各向同性试样中进行拉伸塑性变形。利用嵌入各向异性晶粒的150种不同晶格取向来表示所有可能的晶粒取向。结果表明，加载方向上的塑性应变与表面轮廓高度无关。然而，与晶粒取向无关，垂直于表面方向和横向方向的塑性应变与平均轮廓高度成线性关系。沿表面法向方向的塑性应变随表面轮廓高度的增加而减小。对于横向的塑性应变则相反。这些结果建立了从剖面高度确定晶粒塑性应变的可能性。

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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Volume 9: Mechanics of Solids, Structures, and Fluids

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