Local chemical fluctuation mediated ductility in body-centered-cubic high-entropy alloys

被引:0
|
作者
Bu, Yeqiang [1 ,2 ]
Wu, Yuan [3 ]
Lei, Zhifeng [3 ]
Yuan, Xiaoyuan [3 ]
Wu, Honghui [3 ]
Feng, Xiaobin [4 ]
Liu, Jiabin [1 ,2 ]
Ding, Jun [5 ]
Lu, Yang [4 ]
Wang, Hongtao [2 ]
Lu, Zhaoping [3 ]
Yang, Wei [2 ]
机构
[1] School of Materials Science and Engineering, Zhejiang University, Hangzhou,310027, China
[2] Center for X-mechanics, Zhejiang University, Hangzhou,310027, China
[3] Beijing Advanced Innovation Center for Materials Genome Engineering, State Key Laboratory for Advanced Metals and Materials, University of Science and Technology Beijing, Beijing,100083, China
[4] Department of Mechanical and Biomedical Engineering, City University of Hong Kong, Kowloon,Hong Kong,999077, China
[5] Center for Alloy Innovation and Design, State Key Laboratory for Mechanical Behavior of Materials, Xi'an Jiaotong University, Xi'an,710049, China
来源
Materials Today | 2021年 / 46卷
基金
中国国家自然科学基金;
关键词
Body-centered cubic - Chemical fluctuations - Deformation mechanism - Direct dynamics - Dislocation interaction - Dislocation pinning - In-situ transmission electron microscopies - Mechanical performance;
D O I
暂无
中图分类号
学科分类号
摘要
High-entropy alloys (HEAs) open up a new horizon for discovering un-explored mechanical properties and deformation mechanisms. Local chemical fluctuations (LCFs) in HEAs were found to have significant influences on their mechanical performance, however, the underlying origins remain unclear. In this work, direct dynamic observation of the interaction between LCFs and dislocations was captured by in situ transmission electron microscopy in a ductile body-centered-cubic (BCC) HfNbTiZr HEA under loading. The observed dislocation pinning induced by LCFs contributes to the increment not only in the strength but also in the ductility due to strongly promoted dislocation interaction. The observed local double cross-slips caused by the LCFs distribute dislocations onto various atomic planes homogenously, which is also beneficial for ductilization in HfNbTiZr. Our findings not only shed light on the understanding of deformation mechanisms of HEAs, but also provide a new perspective to design ductile BCC HEAs. © 2021 Elsevier Ltd
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页码:28 / 34
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