Revealing the Mode and Strain of Reversible Twinning in B19' Martensite by in situ Synchrotron X-Ray Diffraction

AMI: Acta Materialia Pub Date : 2022-06-01 DOI:10.2139/ssrn.3927817

Yuxuan Chen, A. Li, Xiangguang Kong, Zhiyuan Ma, Genfa Kang, D. Jiang, Kun Zhao, Y. Ren, L. Cui, Kaiyuan Yu

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引用次数: 11

Abstract

The challenges in the identification of reversible twinning modes and in the measurement of reversible twinning strain impede the thorough understanding of twinning induced elasticity (TIE). In this report, we exploited the mode and strain of reversible twinning in B19' martensite in a Nb-nanowire/NiTiFe-matrix alloy. TIE strain up to 5.1% was achieved by pre-deforming the alloy up to an applied strain of 55.7%. In situ synchrotron X-ray diffraction (XRD) results show that B19' ( ) and ( ) twins were induced by pre-deformation. More importantly, a large portion of these twins were found reversible for the first time. It is suggested that the reversibility is likely due to the pinning effects of high density dislocations and nanosized martensite variants or twins. Furthermore, the reversible twinning strain was measured using XRD based on a 'lattice strain matching' concept such that the contribution of reversible twinning to TIE was clarified. The measured twinning strain was compared with the calculated strain based on twinning crystallography.

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用原位同步x射线衍射揭示B19′马氏体可逆孪晶的模式和应变

在可逆孪晶模式识别和可逆孪晶应变测量方面的挑战阻碍了对孪晶诱导弹性(TIE)的深入理解。本文研究了铌纳米线/ nitife基合金中B19′马氏体可逆孪晶的模式和应变。通过将合金预变形至55.7%的应变，TIE应变可达到5.1%。原位同步x射线衍射(XRD)结果表明，B19′()和()孪晶是由预变形引起的。更重要的是，这些双胞胎中有很大一部分是第一次被发现是可逆的。结果表明，这种可逆性可能是由于高密度位错和纳米马氏体变异体或孪晶的钉钉作用所致。此外，基于“晶格应变匹配”的概念，利用XRD测量了可逆孪晶应变，从而澄清了可逆孪晶对TIE的贡献。将实测的孪晶应变与基于孪晶学的计算应变进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AMI: Acta Materialia

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