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Plastic Deformation Behavior of Bi-Crystal Magnesium Nanopillars with a ... formula ... Twin Boundary under Compression: Molecular Dynamics Simulations

机译：具有双边界的双晶镁纳米柱在压缩下的塑性变形行为：分子动力学模拟

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In this study, molecular dynamics simulations were performed to study the uniaxial compression deformation of bi-crystal magnesium nanopillars with a

{10 \bar{1} 2}

twin boundary (TB). The generation and evolution process of internal defects of magnesium nanopillars were analyzed in detail. Simulation results showed that the initial deformation mechanism was mainly caused by the migration of the twin boundary, and the transformation of TB into (basal/prismatic) B/P interface was observed. After that, basal slip as well as pyramidal slip nucleated during the plastic deformation process. Moreover, a competition mechanism between twin boundary migration and basal slip was found. Basal slip can inhibit the migration of the twin boundary, and

{10 \bar{1} 1} 〈 10 \bar{1} 2 〉

twins appear at a certain high strain level (

ε

= 0.104). In addition, Schmid factor (SF) analysis was conducted to understand the activations of deformation modes.

机译：在这项研究中，进行了分子动力学模拟，以研究具有

{101¯2}双边界（TB） 。详细分析了镁纳米柱内部缺陷的产生和演化过程。仿真结果表明，初始变形机制主要是由孪晶边界的迁移引起的，并且观察到了TB向（基/棱晶）B / P界面的转变。之后，在塑性变形过程中基底滑移和锥体滑移成核。此外，还发现了双边界迁移与基底滑移之间的竞争机制。基础滑移会抑制孪生边界的迁移，并且< mrow> {101？1}〈101？2〉< / mrow>双胞胎以一定的高应变水平出现（ε= 0.104）。此外，进行了施密特因子（SF）分析以了解变形模式的激活。

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期刊名称 Materials
作者
Xiaoyue Yang; Shuang Xu; Qingjia Chi;
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作者单位

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年(卷),期 2019(12),5
年度 2019
页码 750
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
molecular dynamics twin boundary magnesium twining slip;

机译：分子动力学;孪晶边界;镁;缠绕;滑移;

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Plastic Deformation Behavior of Bi-Crystal Magnesium Nanopillars with a ... formula ... Twin Boundary under Compression: Molecular Dynamics Simulations

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