Coupled Effects of Strain Rate and Temperature on Deformation Twinning in Cu-Zn Alloy

Cu-Zn alloy is an advanced material with deformation twinning mechanism, which is complicated by coupled effects of temperature and strain rate. In this paper, a theoretical model of Cu-Zn alloy is proposed, which accounts for the coupled effects of strain rate and temperature. The model can accurat...

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Published in:Strength of materials 2016, Vol.48 (1), p.69-76
Main Authors: Zhou, P., Zhou, J. Q., Ye, Z. X., Jiang, E., Hu, W. B., Le, H. L.
Format: Article
Language:English
Subjects:
Alloys
Analysis
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Interest rates
Materials Science
Solid Mechanics
Specialty metals industry
Twinning (Crystallography)
Zinc
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description Cu-Zn alloy is an advanced material with deformation twinning mechanism, which is complicated by coupled effects of temperature and strain rate. In this paper, a theoretical model of Cu-Zn alloy is proposed, which accounts for the coupled effects of strain rate and temperature. The model can accurately predict the experimentally observed tendency of the spacing evolution of twin boundary (TB), and it confirms that low temperature and high strain rate promote deformation twinning. Moreover, it is shown that deformation twining is more susceptible to low temperature than to high strain rate, while TB spacing and twin layer thickness values decrease at high strain rates and low temperatures.
doi_str_mv 10.1007/s11223-016-9739-2
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subjects Alloys
Analysis
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Interest rates
Materials Science
Solid Mechanics
Specialty metals industry
Twinning (Crystallography)
Zinc
title Coupled Effects of Strain Rate and Temperature on Deformation Twinning in Cu-Zn Alloy
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