Shear deformation and grain refinement in pure Al by asymmetric rolling

Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal marks were used to show the shear deformation during asymmetric rolling with pure aluminium as a model material. Effects of reduction ratio an...

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Published inTransactions of Nonferrous Metals Society of China Vol. 18; no. 4; pp. 774 - 777
Main Author 左方青 蒋建华 单爱党 方建敏 张杏耀
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2008
School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China%Department of Materials Science and Engineering, Shanghai Institute of Technology,Shanghai 200235, China
Subjects
asymmetric rolling
equivalent strain
pure aluminum
shear deformation
不对称旋转
剪切变形
晶粒细化
等效应变
asymmetric rolling
shear deformation
pure aluminum
equivalent strain
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Abstract Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal marks were used to show the shear deformation during asymmetric rolling with pure aluminium as a model material. Effects of reduction ratio and mismatch ratio on the shear deformation were studied. With the observed shear deformation results, equivalent strain was calculated. For lager shear deformation, rolling equipment was modified to increase friction between specimen and the rollers. Consequently, extremely fine grains with size of 500 nm are obtained in pure aluminium. With improved asymmetric rolling, the ability of grain refinement of ASR is greatly improved.
AbstractList TG1; Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal marks were used to show the shear deformation during asymmetric rolling with pure aluminium as a model material. Effects of reduction ratio and mismatch ratio on the shear deformation were studied. With the observed shear deformation results, equivalent strain was calculated. For lager shear deformation, rolling equipment was modified to increase friction between specimen and the rollers. Consequently, extremely fine grains with size of 500 nm are obtained in pure aluminium. With improved asymmetric rolling, the ability of grain refinement of ASR is greatly improved.
Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal marks were used to show the shear deformation during asymmetric rolling with pure aluminium as a model material. Effects of reduction ratio and mismatch ratio on the shear deformation were studied. With the observed shear deformation results, equivalent strain was calculated. For lager shear deformation, rolling equipment was modified to increase friction between specimen and the rollers. Consequently, extremely fine grains with size of 500 nm are obtained in pure aluminium. With improved asymmetric rolling, the ability of grain refinement of ASR is greatly improved.
Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal marks were used to show the shear deformation during asymmetric rolling with pure aluminium as a model material. Effects of reduction ratio and mismatch ratio on the shear deformation were studied. With the observed shear deformation results, equivalent strain was calculated. For lager shear deformation, rolling equipment was modified to increase friction between specimen and the rollers. Consequently, extremely fine grains with size of 500 nm are obtained in pure aluminium. With improved asymmetric rolling, the ability of grain refinement of ASR is greatly improved.
Author 左方青 蒋建华 单爱党 方建敏 张杏耀
AuthorAffiliation School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China Department of Materials Science and Engineering, Shanghai Institute of Technology, Shanghai 200235, China
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shear deformation
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equivalent strain
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shear deformation
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pure aluminum
equivalent strain
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Snippet Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal...
Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance. Internal...
TG1; Asymmetric rolling(ASR), as one of severe plastic deformation(SPD) methods, was widely used to make ultra-fined materials with enhanced performance....
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SubjectTerms asymmetric rolling
equivalent strain
pure aluminum
shear deformation
不对称旋转
剪切变形
晶粒细化
等效应变
Title Shear deformation and grain refinement in pure Al by asymmetric rolling
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https://dx.doi.org/10.1016/S1003-6326(08)60133-8
https://www.proquest.com/docview/34019196
https://d.wanfangdata.com.cn/periodical/zgysjsxb-e200804004
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