Gradient structure design to strengthen carbon interstitial Fe_(40)Mn_(40)Co_(10)Cr_(10) high entropy alloys

Liangbin Chen; Tinghui Cao; Ran Wei; Ke Tang; Chao Xin; Feng Jiang; Jun Sun

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Gradient structure design to strengthen carbon interstitial Fe_(40)Mn_(40)Co_(10)Cr_(10) high entropy alloys

机译：梯度结构设计增强碳间隙Fe_（40）Mn_（40）Co_（10）Cr_（10）高熵合金

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摘要

In this work, gradient structure is successfully produced in the surface of FCC structured (Fe_(40)Mn_(40)Co_(10)Cr_(10))C_(3.3) high entropy alloy (HEA) by using surface mechanical rolling treatment (SMRT). The depth of surface gradient layer with higher hardness increases with increasing the SMRT passes. The introducing of gradient layer not only significantly improves the strength of HEAs but also remains sufficient ductility. The ultra-high strength of the gradient structured HEA is mainly related to the synergetic strengthening mechanism, while the comparatively good ductility is ascribed to the back stress strain hardening mechanism. Gradient structure design provides a novel strategy for producing HEAs with high performance.

机译：在这项工作中，通过表面机械轧制处理，在FCC结构化的（Fe_（40）Mn_（40）Co_（10）Cr_（10））C_（3.3）高熵合金（HEA）的表面成功生成了梯度结构（ SMRT）。硬度较高的表面梯度层的深度随SMRT通过次数的增加而增加。引入梯度层不仅显着提高了HEA的强度，而且还具有足够的延展性。梯度结构HEA的超高强度主要与协同强化机制有关，而相对较好的延展性归因于背应力应变硬化机制。梯度结构设计为生产高性能HEA提供了一种新颖的策略。

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来源
《Materials Science and Engineering》 |2020年第20期|138661.1-138661.8|共8页
作者
Liangbin Chen; Tinghui Cao; Ran Wei; Ke Tang; Chao Xin; Feng Jiang; Jun Sun;
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作者单位

State Key Laboratory for Mechanical Behavior of Materials Xi'an Jiaotong University Xi'an 710049 China College of Physics and Electronic Engineering Xinyang Normal University Xinyang 464000 China;

State Key Laboratory for Mechanical Behavior of Materials Xi'an Jiaotong University Xi'an 710049 China;

State Key Laboratory for Mechanical Behavior of Materials Xi'an Jiaotong University Xi'an 710049 China School of Materials Science and Engineering Zhengzhou University Zhengzhou 450001 China;

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正文语种 eng
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关键词
High entropy alloys; Gradient structure; Mechanical property; Synergetic strengthening mechanism; Back stress strain hardening;

机译：高熵合金;渐变结构;机械性能协同加强机制;背应力应变硬化;

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1. Strengthening of Fe_(40)Mn_(40)Co_(10)Cr_(10) high entropy alloy via Mo/C alloying [J] . Wei R., Sun H., Han Z. H., Materials Letters . 2018,第MAY15期

机译：Mo / C合金强化Fe_（40）Mn_（40）Co_（10）Cr_（10）高熵合金
2. Ductile-brittle transition of carbon alloyed Fe_(40)Mn_(40)Co_(10)Cr_(10) high entropy alloys [J] . Chen L. B., Wei R., Tang K., Materials Letters . 2019,第FEBa1期

机译：碳合金Fe_（40）Mn_（40）Co_（10）Cr_（10）高熵合金的延性-脆性转变
3. Achieving superior cryogenic tensile properties in a Ti-doped (Fe_(40)Mn_(40)Co_(10)Cr_(10))_(96.7)C_(3.3) high-entropy alloy by recovering deformation twinning [J] . K. Tang, Y.K. Wu, R. Wei, Materials Science and Engineering . 2021,第Mara18期

机译：通过恢复变形Twinning实现在Ti掺杂（Fe_（40）Mn_（40）CO_（10）CO_（10）C_（3.3）C_（3.3）的高熵合金中实现优异的低温拉伸性能
4. Microstructure and Mechanical Properties Investigation of New Al_(10)Cr_(12)Mn_(28)Fe_((50-x))Ni_((x)) High Entropy Alloys [C] . Ahmed W. Abdel-Ghany, Sally Elkatatny, Mohamed A.H. Gepreel International Conference on Material Science and Engineering Technology . 2020

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Gradient structure design to strengthen carbon interstitial Fe_(40)Mn_(40)Co_(10)Cr_(10) high entropy alloys

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