Discrete dislocation simulation of nanoindentation: the effect of moving conditions and indenter shape

H.G.M. Kreuzer; R. Pippan

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Discrete dislocation simulation of nanoindentation: the effect of moving conditions and indenter shape

机译：纳米压痕的离散位错模拟：移动条件和压头形状的影响

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Nanoindentation is simulated by means of movement of discrete dislocations. It is shown that the nominal hardness of the material in our model is mainly influenced by the critical shear stress necessary to activate the dislocation sources, whereas the level of decrease of the hardness at small indentation depth is dependent on the lattice friction stress for the dislocation movement. In our plastic analysis the influence of a cylindrical indenter and of a wedge-shaped indenter with a rounded tip is also studied.

机译：纳米压痕是通过离散位错的运动来模拟的。结果表明，我们模型中材料的标称硬度主要受到激活位错源所必需的临界剪切应力的影响，而在小压痕深度下硬度的降低水平取决于位错的晶格摩擦应力运动。在我们的塑性分析中，还研究了圆柱形压头和带有圆形尖端的楔形压头的影响。

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来源
《Materials Science and Engineering. A, Structural Materials》 |2004年第12期|p.254-256|共3页
作者
H.G.M. Kreuzer; R. Pippan;
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作者单位

Erich Schmid Institute for Materials Science, Austrian Academy of Sciences, A-8700 Leoben, Austria;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
discrete dislocation simulation; nanoindentation; indentation size effect; local plasticity;

机译：离散位错模拟纳米压痕压痕尺寸效应局部塑性;

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机译：2.5D离散位错动力学模拟与实验研究纳米压痕的位错演化
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Discrete dislocation simulation of nanoindentation: the effect of moving conditions and indenter shape

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