The microcompression behavior of single-slip oriented, single-crystal micro-pillars was simulated using a crystal plasticity finite element method, by varying a primary slip-plane inclination angle from 36.3 to 48.7 deg while keeping the same primary slip system. Simulated global deformation of the micro-pillars was separated into two types, depending upon the primary slip-plane inclination angle: the one consistent with the primary slip direction and the other diagonally opposite to the primary slip direction. (C) The Minerals, Metals & Materials Society and ASM International 2015
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机译:使用晶体塑性有限元方法,通过将主滑移面的倾斜角从36.3度更改为48.7度,同时保持相同的主滑移系统,使用晶体塑性有限元方法模拟了单滑移定向的单晶微柱的微压缩行为。根据主滑移面的倾斜角度,将微柱的模拟整体变形分为两种类型:一种与主滑移方向一致,而另一种与主滑移方向成对角线。 (C)矿物,金属和材料学会和ASM International 2015
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