Thick grain boundary induced strengthening in nanocrystalline Ni alloy

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Thick grain boundary induced strengthening in nanocrystalline Ni alloy

机译：厚晶界诱发加强纳米晶体镍合金

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Grain refinement has been extensively used to strengthen metallic materials for decades. Grain boundaries act as effective barriers to the transmission of dislocations, consequently leading to strengthening. Conventional grain boundaries have a thickness of 1-2 atomic layers, typically similar to 0.5 nm for most metallic materials. Here, we report, however, the formation of similar to 3 nm thick grain boundaries in a nanocrystalline Ni alloy. In situ micropillar compression studies coupled with molecular dynamics simulations suggest that the thick grain boundaries are stronger barriers than conventional grain boundaries to the transmission of dislocations. This study provides a fresh perspective for the design of high strength, deformable nanostructured metallic materials.

机译：晶粒细化已广泛应用加强几十年来金属材料。边界作为有效的障碍混乱的传播,因此导致加强。边界有一个原子层厚度的1 - 2,对于大多数金属通常类似于0.5海里材料。形成类似于3 nm厚的粮食边界在纳米晶体镍合金。再加上micropillar压缩研究分子动力学模拟显示比粗颗粒边界是坚固的屏障传统的颗粒边界的传播的混乱。高强度设计的角度来看,可变形的纳米金属材料。

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《Nanoscale》 |2019年第48期|23449-23458|共10页
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正文语种英语
中图分类 Online;
关键词
metallic materials; Molecular Dynamics Simulation; nickel alloysNanocrystallinegrain refinementReinforcement;

机译：金属材料,分子动力学模拟;镍alloysNanocrystallinegrainrefinementReinforcement;

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机译：Effect of solute atoms on grain boundary stability of nanocrystalline Ni-Co alloy
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机译：Influences of grain size and twin boundary on the tensile properties of nanocrystalline face-centered cubic Cu50Ni50 alloy
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机译：NanoCrystalline Ni_AI的正电子湮没研究：模拟和测量
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Thick grain boundary induced strengthening in nanocrystalline Ni alloy

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