Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy

Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy

In this work, the tensile deformation behavior of an as-extruded AZ80 magnesium alloy under pulsed current (PC) was investigated based on microstructure observations. We found that compared with the tensile tests at room temperature (RT) and given temperature (GT), the flow stress is reduced due to...

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Main Authors: Hong Xu, You Zhou, Yu-Jie Zou, Meng Liu, Zhi-Peng Guo, Si-Yu Ren, Rong-Hui Yan, Xiu-Ming Cheng
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Materials
Subjects:
pulsed current
deformation behavior
microstructure evolution
magnesium alloys
Online Access:https://www.mdpi.com/1996-1944/13/21/4840
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spelling doaj-4539139b0efa45fab9de770ace8dbafc2020-11-25T03:41:13ZengMDPI AGMaterials1996-19442020-10-01134840484010.3390/ma13214840Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium AlloyHong Xu0You Zhou1Yu-Jie Zou2Meng Liu3Zhi-Peng Guo4Si-Yu Ren5Rong-Hui Yan6Xiu-Ming Cheng7Key Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaKey Laboratory of Automotive Materials of Ministry of Education & School of Materials Science and Engineering, Nanling Campus, Jilin University, No. 5988 Renmin Street, Changchun 130025, ChinaIn this work, the tensile deformation behavior of an as-extruded AZ80 magnesium alloy under pulsed current (PC) was investigated based on microstructure observations. We found that compared with the tensile tests at room temperature (RT) and given temperature (GT), the flow stress is reduced due to both thermal and athermal effects of pulsed current. A quasi-in-situ electron backscatter diffraction (EBSD) analysis reveals that at the same strain, the geometrically necessary dislocation (GND) density of the RT sample is the highest, followed by the GT sample and the PC sample. This proves that the athermal effect can promote the annihilation of dislocations and slow down dislocation pileup, which reduces the flow stress. In addition, the twinning behavior under different deformation conditions was studied; the twins are {10−12} tension twins, which are activated with the assistance of local stress. We found that the twin fraction in the PC sample is lower than that in the RT and GT samples, due to the least accumulation of GNDs at grain boundaries, which decreases the nucleation of {10−12} tension twins.https://www.mdpi.com/1996-1944/13/21/4840pulsed currentdeformation behaviormicrostructure evolutionmagnesium alloys
collection DOAJ
language English
format Article
sources DOAJ
author Hong Xu
You Zhou
Yu-Jie Zou
Meng Liu
Zhi-Peng Guo
Si-Yu Ren
Rong-Hui Yan
Xiu-Ming Cheng
spellingShingle Hong Xu
You Zhou
Yu-Jie Zou
Meng Liu
Zhi-Peng Guo
Si-Yu Ren
Rong-Hui Yan
Xiu-Ming Cheng
Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
Materials
pulsed current
deformation behavior
microstructure evolution
magnesium alloys
author_facet Hong Xu
You Zhou
Yu-Jie Zou
Meng Liu
Zhi-Peng Guo
Si-Yu Ren
Rong-Hui Yan
Xiu-Ming Cheng
author_sort Hong Xu
title Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
title_short Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
title_full Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
title_fullStr Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
title_full_unstemmed Effect of Pulsed Current on the Tensile Deformation Behavior and Microstructure Evolution of AZ80 Magnesium Alloy
title_sort effect of pulsed current on the tensile deformation behavior and microstructure evolution of az80 magnesium alloy
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-10-01
description In this work, the tensile deformation behavior of an as-extruded AZ80 magnesium alloy under pulsed current (PC) was investigated based on microstructure observations. We found that compared with the tensile tests at room temperature (RT) and given temperature (GT), the flow stress is reduced due to both thermal and athermal effects of pulsed current. A quasi-in-situ electron backscatter diffraction (EBSD) analysis reveals that at the same strain, the geometrically necessary dislocation (GND) density of the RT sample is the highest, followed by the GT sample and the PC sample. This proves that the athermal effect can promote the annihilation of dislocations and slow down dislocation pileup, which reduces the flow stress. In addition, the twinning behavior under different deformation conditions was studied; the twins are {10−12} tension twins, which are activated with the assistance of local stress. We found that the twin fraction in the PC sample is lower than that in the RT and GT samples, due to the least accumulation of GNDs at grain boundaries, which decreases the nucleation of {10−12} tension twins.
topic pulsed current
deformation behavior
microstructure evolution
magnesium alloys
url https://www.mdpi.com/1996-1944/13/21/4840
work_keys_str_mv AT hongxu effectofpulsedcurrentonthetensiledeformationbehaviorandmicrostructureevolutionofaz80magnesiumalloy
AT youzhou effectofpulsedcurrentonthetensiledeformationbehaviorandmicrostructureevolutionofaz80magnesiumalloy
AT yujiezou effectofpulsedcurrentonthetensiledeformationbehaviorandmicrostructureevolutionofaz80magnesiumalloy
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