Stable strain hardening behavior of Ti-4Al-5Mo-5V-5Cr-1Nb alloy during plastic deformation

Lianyang Chen; Chuanyun Wang; Jianping Yin; Ning Zhang; Tian Ye; Tianhao Guan; Feng Zhao; Hongchao Kou; Qiong Deng

doi:10.1016/j.mtcomm.2023.106836

Stable strain hardening behavior of Ti-4Al-5Mo-5V-5Cr-1Nb alloy during plastic deformation

Lianyang Chen, Chuanyun Wang, Jianping Yin, Ning Zhang, Tian Ye, Tianhao Guan, Feng Zhao, Hongchao Kou, Qiong Deng

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Strain hardening is crucial to the formability and reliability of structural materials, however, such capacity will be exhausted as strain increases. In current work, a stable strain hardening character is found in the compression of Ti-4Al-5Mo-5V-5Cr-1Nb alloy up to 0.4 strain. Microstructural characterization on deformed samples reveals the development of multiscale α′′ lath frames. The stable strain hardening behavior is understood via unveiling the roles of α′′ lath during deformation. It is noted that these α′′ laths impede dislocations and reduce their mean free path as strain increases. Meanwhile, a high density of dislocations can be observed within these nanoscale α′′ laths, indicating they are also involved into deformation. Such a strain accommodation mechanism greatly relieves the stress concentrated at β/α′′ interfaces enabling the resistance to crack initialization.

源语言	英语
文章编号	106836
期刊	Materials Today Communications
卷	36
DOI	https://doi.org/10.1016/j.mtcomm.2023.106836
出版状态	已出版 - 8月 2023

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title = "Stable strain hardening behavior of Ti-4Al-5Mo-5V-5Cr-1Nb alloy during plastic deformation",

abstract = "Strain hardening is crucial to the formability and reliability of structural materials, however, such capacity will be exhausted as strain increases. In current work, a stable strain hardening character is found in the compression of Ti-4Al-5Mo-5V-5Cr-1Nb alloy up to 0.4 strain. Microstructural characterization on deformed samples reveals the development of multiscale α′′ lath frames. The stable strain hardening behavior is understood via unveiling the roles of α′′ lath during deformation. It is noted that these α′′ laths impede dislocations and reduce their mean free path as strain increases. Meanwhile, a high density of dislocations can be observed within these nanoscale α′′ laths, indicating they are also involved into deformation. Such a strain accommodation mechanism greatly relieves the stress concentrated at β/α′′ interfaces enabling the resistance to crack initialization.",

keywords = "Dislocation mean free path, Martensitic transformation, Metastable β titanium alloy, Strain hardening",

author = "Lianyang Chen and Chuanyun Wang and Jianping Yin and Ning Zhang and Tian Ye and Tianhao Guan and Feng Zhao and Hongchao Kou and Qiong Deng",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier Ltd",

year = "2023",

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doi = "10.1016/j.mtcomm.2023.106836",

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T1 - Stable strain hardening behavior of Ti-4Al-5Mo-5V-5Cr-1Nb alloy during plastic deformation

AU - Chen, Lianyang

AU - Wang, Chuanyun

AU - Yin, Jianping

AU - Zhang, Ning

AU - Ye, Tian

AU - Guan, Tianhao

AU - Zhao, Feng

AU - Kou, Hongchao

AU - Deng, Qiong

PY - 2023/8

Y1 - 2023/8

N2 - Strain hardening is crucial to the formability and reliability of structural materials, however, such capacity will be exhausted as strain increases. In current work, a stable strain hardening character is found in the compression of Ti-4Al-5Mo-5V-5Cr-1Nb alloy up to 0.4 strain. Microstructural characterization on deformed samples reveals the development of multiscale α′′ lath frames. The stable strain hardening behavior is understood via unveiling the roles of α′′ lath during deformation. It is noted that these α′′ laths impede dislocations and reduce their mean free path as strain increases. Meanwhile, a high density of dislocations can be observed within these nanoscale α′′ laths, indicating they are also involved into deformation. Such a strain accommodation mechanism greatly relieves the stress concentrated at β/α′′ interfaces enabling the resistance to crack initialization.

AB - Strain hardening is crucial to the formability and reliability of structural materials, however, such capacity will be exhausted as strain increases. In current work, a stable strain hardening character is found in the compression of Ti-4Al-5Mo-5V-5Cr-1Nb alloy up to 0.4 strain. Microstructural characterization on deformed samples reveals the development of multiscale α′′ lath frames. The stable strain hardening behavior is understood via unveiling the roles of α′′ lath during deformation. It is noted that these α′′ laths impede dislocations and reduce their mean free path as strain increases. Meanwhile, a high density of dislocations can be observed within these nanoscale α′′ laths, indicating they are also involved into deformation. Such a strain accommodation mechanism greatly relieves the stress concentrated at β/α′′ interfaces enabling the resistance to crack initialization.

KW - Dislocation mean free path

KW - Martensitic transformation

KW - Metastable β titanium alloy

KW - Strain hardening

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DO - 10.1016/j.mtcomm.2023.106836

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SN - 2352-4928

VL - 36

JO - Materials Today Communications

JF - Materials Today Communications

M1 - 106836

ER -

Stable strain hardening behavior of Ti-4Al-5Mo-5V-5Cr-1Nb alloy during plastic deformation

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