Evading brittle fracture in submicron-sized high entropy intermetallics in dual-phase eutectic microstructure

Ding Z. Y.; He Q. F.; Chung D.; Yang Y.

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Evading brittle fracture in submicron-sized high entropy intermetallics in dual-phase eutectic microstructure

机译：在双相共晶微观结构中剥落亚微米大小的高熵金属间质量的脆性骨折

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Conventional Laves phase is extremely brittle at room temperature. However, through a systematic study, we showed that the quinary Co-Cr-Fe-Ni-Nb Laves phase in a eutectic high entropy alloy (EHEA) can be plastically deformed at room temperature when its size is refined below 200 nm. Based on our current results, we propose a general micromechanical model that not only explains the suppression of cracks in the high entropy Laves phase but also enables the extraction of its fracture toughness even when the high entropy Laves phase deforms and cracks in a dual-phase microstructure. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

机译：在室温下常规熔胃液相非常脆。然而，通过系统研究，我们表明，当其尺寸在200nm以下时，在室温下，共晶高熵合金（EHEA）中的官方CO-CR-Fe-Ni-Nb Laves相可以在室温下塑性变形。基于我们的目前的结果，我们提出了一种通用的微机械模型，不仅解释了高熵阀型阶段的抑制，而且也能够提取其断裂韧性，即使在双相中的高熵液相变形和裂缝时也能够提取其断裂韧性微观结构。（c）2020 Acta Materialia Inc. eSeryvier有限公司发布所有权利。

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《Scripta materialia》 |2020年第1期|共5页
作者
Ding Z. Y.; He Q. F.; Chung D.; Yang Y.;
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作者单位

City Univ Hong Kong Dept Mech Engn Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;

City Univ Hong Kong Dept Mech Engn Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;

City Univ Hong Kong Dept Mech Engn Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;

City Univ Hong Kong Dept Mech Engn Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;

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正文语种 eng
中图分类冶金工业;
关键词
Laves phase; Eutectic high entropy alloy; Plastic flow; Micromechanical modelling;

机译：疏浚阶段;共晶高熵合金;塑料流动;微机械建模;

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专利

1. Evading brittle fracture in submicron-sized high entropy intermetallics in dual-phase eutectic microstructure [J] . Ding Z. Y., He Q. F., Chung D., Scripta materialia . 2020,第1期

机译：在双相共晶微观结构中剥落亚微米大小的高熵金属间质量的脆性骨折
2. The Exceptional Strong Face-centered Cubic Phase and Semi-coherent Phase Boundary in a Eutectic Dual-phase High Entropy Alloy AlCoCrFeNi [J] . Qiannan Wang, Yiping Lu, Qian Yu, Scientific reports. . 2018,第1期

机译：共晶双相高熵合金AlcoCrfeni的特殊强面对方立方相和半相干相边界
3. The relationship between effective entropy change and volume fraction of the eutectic phases in eutectic microstructures [J] . Guanghui Meng, Xin Lin, Weidong Huang Materials Letters . 2008,第6a7期

机译：共晶组织中有效熵变与共晶相体积分数的关系
4. Charpy Impact Fracture Energy and Ductile-Brittle Transition Temperature of Dual-Phase 590 Steel [C] . Y. J. Chao, J. D. Ward Jr., R. G. Sands SAE World Congress . 2006

机译：夏比冲击断裂能量和韧性 - 脆性转变温度双相590钢
5. Peridynamic Models for the Influence of Microstructure and of Temperature in Dynamic and Quasi-Static Brittle ?Fracture [D] . Mehrmashhadi, Javad. 2020

机译：谦动模型用于动态和准静态脆性温度和温度的影响？骨折
6. The Exceptional Strong Face-centered Cubic Phase and Semi-coherent Phase Boundary in a Eutectic Dual-phase High Entropy Alloy AlCoCrFeNi [O] . Qiannan Wang, Yiping Lu, Qian Yu, -1

机译：共晶双相高熵合金AlCoCrFeNi中异常强的面心立方相和半相干相界
7. Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB2 Composite [O] . Paweł Hyjek, Iwona Sulima, Piotr Malczewski, 2020

机译：反应性SP对双相Ni-Al金属间化合物和Ni-Al-Tib2复合材料的微观结构和性能的影响
8. Deformation and Fracture of Controlled Eutectics Containing Intermetallic Compounds. [R] . Stoloff, N. S. 1978

机译：含金属间化合物的可控共晶体的变形与断裂。

Evading brittle fracture in submicron-sized high entropy intermetallics in dual-phase eutectic microstructure

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