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

AMI: Acta Materialia

45 Pages Posted: 21 Sep 2021 Publication Status: Published

See all articles by Yuxuan Chen

Yuxuan Chen

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Ang Li

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Zhiyuan Ma

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Genfa Kang

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Daqiang Jiang

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Kun Zhao

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Yang Ren

Government of the United States of America - X-Ray Science Division

Lishan Cui

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing; China University of Petroleum (Beijing) - Department of Materials Science and Engineering

Kaiyuan Yu

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

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.

Keywords: Twinning induced elasticity, Martensite, NiTi, sma, High-energy X-ray diffraction.

Suggested Citation

Chen, Yuxuan and Li, Ang and Ma, Zhiyuan and Kang, Genfa and Jiang, Daqiang and Zhao, Kun and Ren, Yang and Cui, Lishan and Yu, Kaiyuan, Revealing the Mode and Strain of Reversible Twinning in B19' Martensite by in situ Synchrotron X-Ray Diffraction. Available at SSRN: https://ssrn.com/abstract=3927817 or http://dx.doi.org/10.2139/ssrn.3927817

Yuxuan Chen

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

China

Ang Li

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

China

Zhiyuan Ma

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

China

Genfa Kang

China University of Petroleum (Beijing) - Department of Materials Science and Engineering ( email )

Beijing
China

Daqiang Jiang

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing ( email )

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering ( email )

China

Kun Zhao

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering

China

Yang Ren

Government of the United States of America - X-Ray Science Division

United States

Lishan Cui

China University of Petroleum (Beijing) - State Key Laboratory of Heavy Oil Processing ( email )

Beijing, 102249
China

China University of Petroleum (Beijing) - Department of Materials Science and Engineering ( email )

China

Kaiyuan Yu (Contact Author)

China University of Petroleum (Beijing) - Department of Materials Science and Engineering ( email )

Beijing
China

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