Atomistic understanding on creep in bulk nanostructured metals

机译：整体纳米结构金属蠕变的原子学理解

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The mechanical and electronic properties of materials have been significantly advanced byreducing the characteristic sample size or grain size to nanoscale regime (typically ＜100 nm).However,the enhanced creep of nanostructured materials limits their utilities at mediate andhigh temperature of service.

机译：通过将特征样品尺寸或晶粒尺寸减小至纳米级（通常＜100 nm），材料的机械和电子性能得到了显着提高。然而，纳米结构材料蠕变的增强限制了它们在中等和高温环境下的实用性。

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来源
《13th International conference on fracture》|2013年|1|共1页
会议地点 Beijing(CN)
作者
Yun-Jiang Wang; Guo-Jie J. Gao; Shigenobu Ogata;
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作者单位

Department of Mechanical Science and Bioengineering,Graduate School of Engineering Science,Osaka University,Osaka 560-8531,Japan;

Department of Mechanical Science and Bioengineering,Graduate School of Engineering Science,Osaka University,Osaka 560-8531,Japan;

Department of Mechanical Science and Bioengineering,Graduate School of Engineering Science,Osaka University,Osaka 560-8531,Japan;

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原文格式 PDF
正文语种 eng
中图分类断裂理论;
关键词
creep; bulk nanostructured metals; nanotwinning; molecular dynamics;

机译：蠕变;大体积纳米结构金属;不成对;分子动力学;

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Atomistic understanding on creep in bulk nanostructured metals

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