Deformation behaviour of hot extruded Mg alloy AZ31 during compressive Deformation

J. J. He; T. M. Liu; Y. Zhang; S. Xu; L. W. Lu; J. Tan

doi:10.1179/1743284712Y.0000000114

Deformation behaviour of hot extruded Mg alloy AZ31 during compressive Deformation

J. J. He^*, T. M. Liu, Y. Zhang, S. Xu, L. W. Lu, J. Tan

^*Corresponding author for this work

Chongqing University

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

Deformation behaviour of a hot extruded Mg-3Al-1Zn alloy subjected to uniaxial compression at room temperature was investigated. Microstructure evolution showed that the amount of lenticular shaped extension twins increased with the increase in true strain when it was lower than ̃4% but decreased when it was higher than ̃4%. Previous studies indicated that detwinning occurred. However, we have demonstrated in the present paper that no detwinning occurred, but a process of twin growth and coalescence, leading to an analogous detwinning phenomenon observed in the optical micrographs because most of the matrixes were consumed. A strong texture evolution occurred in this process, and the reorientation produced by strong twinning was mainly responsible for strain hardening when compressed along the extrusion direction.

Original language	English
Pages (from-to)	177-183
Number of pages	7
Journal	Materials Science and Technology
Volume	29
Issue number	2
DOIs	https://doi.org/10.1179/1743284712Y.0000000114
Publication status	Published - Feb 2013
Externally published	Yes

Keywords

Magnesium alloys
Twinning
X-ray diffraction

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title = "Deformation behaviour of hot extruded Mg alloy AZ31 during compressive Deformation",

abstract = "Deformation behaviour of a hot extruded Mg-3Al-1Zn alloy subjected to uniaxial compression at room temperature was investigated. Microstructure evolution showed that the amount of lenticular shaped extension twins increased with the increase in true strain when it was lower than{\~ }4% but decreased when it was higher than{\~ }4%. Previous studies indicated that detwinning occurred. However, we have demonstrated in the present paper that no detwinning occurred, but a process of twin growth and coalescence, leading to an analogous detwinning phenomenon observed in the optical micrographs because most of the matrixes were consumed. A strong texture evolution occurred in this process, and the reorientation produced by strong twinning was mainly responsible for strain hardening when compressed along the extrusion direction.",

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T1 - Deformation behaviour of hot extruded Mg alloy AZ31 during compressive Deformation

AU - He, J. J.

AU - Liu, T. M.

AU - Zhang, Y.

AU - Xu, S.

AU - Lu, L. W.

AU - Tan, J.

PY - 2013/2

Y1 - 2013/2

N2 - Deformation behaviour of a hot extruded Mg-3Al-1Zn alloy subjected to uniaxial compression at room temperature was investigated. Microstructure evolution showed that the amount of lenticular shaped extension twins increased with the increase in true strain when it was lower than ̃4% but decreased when it was higher than ̃4%. Previous studies indicated that detwinning occurred. However, we have demonstrated in the present paper that no detwinning occurred, but a process of twin growth and coalescence, leading to an analogous detwinning phenomenon observed in the optical micrographs because most of the matrixes were consumed. A strong texture evolution occurred in this process, and the reorientation produced by strong twinning was mainly responsible for strain hardening when compressed along the extrusion direction.

AB - Deformation behaviour of a hot extruded Mg-3Al-1Zn alloy subjected to uniaxial compression at room temperature was investigated. Microstructure evolution showed that the amount of lenticular shaped extension twins increased with the increase in true strain when it was lower than ̃4% but decreased when it was higher than ̃4%. Previous studies indicated that detwinning occurred. However, we have demonstrated in the present paper that no detwinning occurred, but a process of twin growth and coalescence, leading to an analogous detwinning phenomenon observed in the optical micrographs because most of the matrixes were consumed. A strong texture evolution occurred in this process, and the reorientation produced by strong twinning was mainly responsible for strain hardening when compressed along the extrusion direction.

KW - Magnesium alloys

KW - Twinning

KW - X-ray diffraction

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SP - 177

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JO - Materials Science and Technology

JF - Materials Science and Technology

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Deformation behaviour of hot extruded Mg alloy AZ31 during compressive Deformation

Abstract

Keywords

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