CONDENSED MATTER: STRUCTURE, MECHANICAL AND THERMAL PROPERTIES |
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Shear-Banding Evolution Dynamics during High Temperature Compression of Martensitic Ti-6Al-4V Alloy |
Xue-Hua Zhang1,2*, Rong Li3, Yong-Qing Zhao1,3*, and Wei-Dong Zeng1 |
1State Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi'an 710072, China 2Western Metal Materials Co., LTD, Xi'an 710021, China 3Northwest Institute for Nonferrous Metal Research, Xi'an 710016, China
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Cite this article: |
Xue-Hua Zhang, Rong Li, Yong-Qing Zhao et al 2020 Chin. Phys. Lett. 37 116201 |
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Abstract The isothermal compression dynamics of ternary Ti-6Al-4V alloy with initial martensitic structures were investigated in the high temperature range 1083–1173 K and moderate strain rate regime 0.01–10 s$^{-1}$. Shear banding was found to still dominate the deformation mechanism of this process, despite its nonadiabatic feature. The constitutive equation was derived with the aid of Zener–Hollomon parameter, which predicted the apparent activation energy as 534.39 kJ/mol. A combination of higher deformation temperature and lower strain rate suppressed the peak flow stress and promoted the evolution of shear bands. Both experiments and calculations demonstrated that a conspicuous temperature rise up to 83 K could be induced by severe plastic deformation. This facilitated the dynamic recrystallization of deformed martensites, as evidenced by the measured microhardness profiles across shear bands.
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Received: 04 July 2020
Published: 08 November 2020
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PACS: |
62.20.F-
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(Deformation and plasticity)
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62.20.-x
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(Mechanical properties of solids)
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81.40.Ef
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(Cold working, work hardening; annealing, post-deformation annealing, quenching, tempering recovery, and crystallization)
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81.40.Lm
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(Deformation, plasticity, and creep)
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Fund: Supported by the National Natural Science Foundation of China (Grant No. 51471136), and the Fundamental Research Funds for Central Universities. |
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