The influence of stacking fault energy on the mechanical properties of nanostructured Cu and Cu–Al alloys processed by high-pressure torsion

► Nanostructured Cu and Cu-Al alloys were prepared by high-pressure torsion. ► The strengths increase with decreasing stacking fault energy (SFE). ► The strength of NS alloys with low Al content is sensitive to the loading conditions. ► The ductility also increases except at the lowest SFE where the...

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Published inScripta materialia Vol. 64; no. 10; pp. 954 - 957
Main Authors An, X.H., Lin, Q.Y., Wu, S.D., Zhang, Z.F., Figueiredo, R.B., Gao, N., Langdon, T.G.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2011
Subjects
Alloys
Copper base alloys
Cu–Al alloy
Ductility
High-pressure torsion
Intermetallic compounds
Mechanical properties
Nanostructure
Nanostructures
Stacking fault energy
Strength
Torsion
Stacking fault energy
Cu
Nanostructures
Cu–Al alloy
High-pressure torsion
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Abstract ► Nanostructured Cu and Cu-Al alloys were prepared by high-pressure torsion. ► The strengths increase with decreasing stacking fault energy (SFE). ► The strength of NS alloys with low Al content is sensitive to the loading conditions. ► The ductility also increases except at the lowest SFE where the ductility decreased. ► There is an optimal SFE for ductility in the NS alloys processed by various methods. Nanostructured (NS) Cu and Cu–Al alloys were processed by high-pressure torsion to systematically investigate the influence of stacking fault energy (SFE) on the mechanical properties. It is shown that the strength increases with decreasing SFE and the strength of NS materials with lower Al content is especially sensitive to the characteristics of the processing conditions. The uniform elongation generally increases with decreasing SFE, but this trend is reversed at the smallest grain size of ∼30 nm.
AbstractList Nanostructured (NS) Cu and Cu-Al alloys were processed by high-pressure torsion to systematically investigate the influence of stacking fault energy (SFE) on the mechanical properties. It is shown that the strength increases with decreasing SFE and the strength of NS materials with lower Al content is especially sensitive to the characteristics of the processing conditions. The uniform elongation generally increases with decreasing SFE, but this trend is reversed at the smallest grain size of similar to 30nm.
► Nanostructured Cu and Cu-Al alloys were prepared by high-pressure torsion. ► The strengths increase with decreasing stacking fault energy (SFE). ► The strength of NS alloys with low Al content is sensitive to the loading conditions. ► The ductility also increases except at the lowest SFE where the ductility decreased. ► There is an optimal SFE for ductility in the NS alloys processed by various methods. Nanostructured (NS) Cu and Cu–Al alloys were processed by high-pressure torsion to systematically investigate the influence of stacking fault energy (SFE) on the mechanical properties. It is shown that the strength increases with decreasing SFE and the strength of NS materials with lower Al content is especially sensitive to the characteristics of the processing conditions. The uniform elongation generally increases with decreasing SFE, but this trend is reversed at the smallest grain size of ∼30 nm.
Author Lin, Q.Y.
Figueiredo, R.B.
Zhang, Z.F.
An, X.H.
Gao, N.
Wu, S.D.
Langdon, T.G.
Author_xml – sequence: 1
  givenname: X.H.
  surname: An
  fullname: An, X.H.
  email: xhan@imr.ac.cn
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, People’s Republic of China
– sequence: 2
  givenname: Q.Y.
  surname: Lin
  fullname: Lin, Q.Y.
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, People’s Republic of China
– sequence: 3
  givenname: S.D.
  surname: Wu
  fullname: Wu, S.D.
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, People’s Republic of China
– sequence: 4
  givenname: Z.F.
  surname: Zhang
  fullname: Zhang, Z.F.
  email: zhfzhang@imr.ac.cn
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, People’s Republic of China
– sequence: 5
  givenname: R.B.
  surname: Figueiredo
  fullname: Figueiredo, R.B.
  organization: Department of Metallurgical and Materials Engineering, Federal University of Minas Gerais, Belo Horizonte, MG 31270-901, Brazil
– sequence: 6
  givenname: N.
  surname: Gao
  fullname: Gao, N.
  organization: Materials Research Group, School of Engineering Sciences, University of Southampton, Southampton SO17 1BJ, UK
– sequence: 7
  givenname: T.G.
  surname: Langdon
  fullname: Langdon, T.G.
  organization: Materials Research Group, School of Engineering Sciences, University of Southampton, Southampton SO17 1BJ, UK
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Cu
Nanostructures
Cu–Al alloy
High-pressure torsion
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Snippet ► Nanostructured Cu and Cu-Al alloys were prepared by high-pressure torsion. ► The strengths increase with decreasing stacking fault energy (SFE). ► The...
Nanostructured (NS) Cu and Cu-Al alloys were processed by high-pressure torsion to systematically investigate the influence of stacking fault energy (SFE) on...
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SubjectTerms Alloys
Copper base alloys
Cu–Al alloy
Ductility
High-pressure torsion
Intermetallic compounds
Mechanical properties
Nanostructure
Nanostructures
Stacking fault energy
Strength
Torsion
Title The influence of stacking fault energy on the mechanical properties of nanostructured Cu and Cu–Al alloys processed by high-pressure torsion
URI https://dx.doi.org/10.1016/j.scriptamat.2011.01.041
https://www.proquest.com/docview/869808235
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