Heterogeneous lattice strain strengthening in severely distorted crystalline solids

Jia Li; Yang Chen; Quanfeng HeXiong XuHang WangChao JiangBin LiuQihong FangYong LiuYong YangPeter K. LiawChain T. Liu

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Heterogeneous lattice strain strengthening in severely distorted crystalline solids

机译：Heterogeneous lattice strain strengthening in severely distorted crystalline solids

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Multi-principal element alloys (MPEAs) exhibit outstanding mechanical properties because the core effect of severe atomic lattice distortion is distinctly different from that of traditional alloys. However, at the mesoscopic scale the underlying physics for the abundant dislocation activities responsible for strength-ductility synergy has not been uncovered. While the Eshelby mean-field approaches become insufficient to tackle yielding and plasticity in severely distorted crystalline solids, here we develop a three-dimensional discrete dislocation dynamics simulation approach by taking into account the experimentally measured lattice strain field from a model FeCoCrNiMn MPEA to explore the heterogeneous strain-induced strengthening mechanisms. Our results reveal that the heterogeneous lattice strain causes unusual dislocation behaviors (i.e., multiple kinks/jogs and bidirectional cross slips), resulting in the strengthening mechanisms that underpin the strength-ductility synergy. The outcome of our research sheds important insights into the design of strong yet ductile distorted crystalline solids, such as high-entropy alloys and high-entropy ceramics.

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《Proceedings of the National Academy of Sciences of the United States of America.》 |2022年第25期|e2200607119-e2200607119|共1页
作者
Jia Li; Yang Chen; Quanfeng HeXiong XuHang WangChao JiangBin LiuQihong FangYong LiuYong YangPeter K. LiawChain T. Liu;
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作者单位

State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body, College of Mechanical;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类自然科学总论;
关键词
Multi-principal element alloys; heterogeneous lattice strain; dislocation kink/jog; strengthening mechanism; discrete dislocation dynamics;

Heterogeneous lattice strain strengthening in severely distorted crystalline solids

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