Plastic deformation of multicrystalline thin films: Grain size distribution vs. grain orientation

Puri S.; Roy A.

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Plastic deformation of multicrystalline thin films: Grain size distribution vs. grain orientation

机译：多晶薄膜的塑性变形：晶粒尺寸分布与晶粒取向

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A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the interplay between grain size and grain orientation on the mechanical response of multicrystalline thin films undergoing plane strain tension. It is shown that the grain size dependence in the case of multicrystals is controlled by those grains which are relatively more susceptible to plastic deformation. This effect is captured to some extent by conventional crystal plasticity theory; however, the explicit incorporation of polar dislocations in the MFDM model significantly enhances the overall mechanical response as demonstrated in the paper.

机译：连续性的可塑性模型，介观场错力学（MFDM），用于研究晶粒尺寸和晶粒取向对承受平面应变张力的多晶薄膜的机械响应的相互作用。结果表明，在多晶情况下，晶粒尺寸的依赖性由那些相对较容易塑性变形的晶粒控制。传统的晶体可塑性理论在某种程度上捕获了这种效应。但是，如本文所述，在MFDM模型中明确引入极位错可以显着增强整体机械响应。

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《Computational Materials Science》 |2012年第null期|共5页
作者
Puri S.; Roy A.;
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正文语种 eng
中图分类工程材料学;
关键词
Dislocation mechanics; Finite element analysis; Plasticity; Thin films;

机译：位错力学;有限元分析;可塑性;薄膜;

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1. Plastic deformation of multicrystalline thin films: Grain size distribution vs. grain orientation [J] . Puri S., Roy A. Computational Materials Science . 2012,第Null期

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3. Time decay of the remanent magnetization in longitudinal thin film recording media as a function of distributions of grain size and easy-axis orientation [J] . Cheng Yang, Sivertsen J.M. IEEE Transactions on Magnetics . 1998,第4期

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Plastic deformation of multicrystalline thin films: Grain size distribution vs. grain orientation

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