Compressive deformation behavior of CrMnFeCoNi high-entropy alloy

The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigated using experimental and theoretical approaches. The equiaxed microstructures are observed using optical microscope, electron backscattered diffraction, and synchrotron X-ray diffraction (XRD) te...

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Published inMetals and materials international Vol. 22; no. 6; pp. 982 - 986
Main Authors Jang, Min Ji, Joo, Soo-Hyun, Tsai, Che-Wei, Yeh, Jien-Wei, Kim, Hyoung Seop
Format Journal Article
LanguageEnglish
Published Seoul The Korean Institute of Metals and Materials 01.11.2016
Springer Nature B.V
대한금속·재료학회
Subjects
Characterization and Evaluation of Materials
Chemistry and Materials Science
Deformation
Dislocation density
Dislocations
Engineering Thermodynamics
Heat and Mass Transfer
Machines
Magnetic Materials
Magnetism
Manufacturing
Materials Science
Mathematical models
Metallic Materials
Processes
Solid Mechanics
Strain hardening
Surface layer
Synchrotrons
Texture
재료공학
dislocation
metals
deformation
alloys
texture
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Abstract The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigated using experimental and theoretical approaches. The equiaxed microstructures are observed using optical microscope, electron backscattered diffraction, and synchrotron X-ray diffraction (XRD) techniques. Compressive results reveal that the CrMnFeCoNi HEA has a high strain-hardening exponent in spite of its large grain size due to increased dislocation density and severe lattice distortion. The compressive texture of the HEA resembles those of typical FCC metals. The phenomenological dislocation-based constitutive model well describes the compressive deformation behavior. The predicted dislocation density is in good quantitative agreement with the experimental value measured using whole-profile fitting of synchrotron XRD peaks. It can be confirmed from the experimental and theoretical findings that the deformation mechanism of the CrMnFeCoNi HEA is the conventional dislocation glide and mechanical twinning is negligible contrary to general belief.
AbstractList The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigated using experimental and theoretical approaches. The equiaxed microstructures are observed using optical microscope, electron backscattered diffraction, and synchrotron X-ray diffraction (XRD) techniques. Compressive results reveal that the CrMnFeCoNi HEA has a high strain-hardening exponent in spite of its large grain size due to increased dislocation density and severe lattice distortion. The compressive texture of the HEA resembles those of typical FCC metals. The phenomenological dislocation-based constitutive model well describes the compressive deformation behavior. The predicted dislocation density is in good quantitative agreement with the experimental value measured using whole-profile fitting of synchrotron XRD peaks. It can be confirmed from the experimental and theoretical findings that the deformation mechanism of the CrMnFeCoNi HEA is the conventional dislocation glide and mechanical twinning is negligible contrary to general belief.
The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigatedusing experimental and theoretical approaches. The equiaxed microstructures are observed using optical microscope,electron backscattered diffraction, and synchrotron X-ray diffraction (XRD) techniques. Compressiveresults reveal that the CrMnFeCoNi HEA has a high strain-hardening exponent in spite of its large grain sizedue to increased dislocation density and severe lattice distortion. The compressive texture of the HEA resemblesthose of typical FCC metals. The phenomenological dislocation-based constitutive model well describes thecompressive deformation behavior. The predicted dislocation density is in good quantitative agreement with theexperimental value measured using whole-profile fitting of synchrotron XRD peaks. It can be confirmed fromthe experimental and theoretical findings that the deformation mechanism of the CrMnFeCoNi HEA is theconventional dislocation glide and mechanical twinning is negligible contrary to general belief. KCI Citation Count: 1
Author Jang, Min Ji
Tsai, Che-Wei
Yeh, Jien-Wei
Joo, Soo-Hyun
Kim, Hyoung Seop
Author_xml – sequence: 1
  givenname: Min Ji
  surname: Jang
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  givenname: Soo-Hyun
  surname: Joo
  fullname: Joo, Soo-Hyun
  organization: Institute for Materials Research, Tohoku University
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  givenname: Che-Wei
  surname: Tsai
  fullname: Tsai, Che-Wei
  organization: Department of Materials Science and Engineering, National Tsing Hua University
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  surname: Yeh
  fullname: Yeh, Jien-Wei
  organization: Department of Materials Science and Engineering, National Tsing Hua University
– sequence: 5
  givenname: Hyoung Seop
  surname: Kim
  fullname: Kim, Hyoung Seop
  email: hskim@postech.ac.kr
  organization: Department of Materials Science and Engineering, Pohang University of Science and Technology (POSTECH), Center for High Entropy Alloys, Pohang University of Science and Technology (POSTECH)
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Snippet The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigated using experimental and theoretical approaches. The...
The compressive deformation behavior of a single phase CrMnFeCoNi high-entropy alloy (HEA) is investigatedusing experimental and theoretical approaches. The...
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SubjectTerms Characterization and Evaluation of Materials
Chemistry and Materials Science
Deformation
Dislocation density
Dislocations
Engineering Thermodynamics
Heat and Mass Transfer
Machines
Magnetic Materials
Magnetism
Manufacturing
Materials Science
Mathematical models
Metallic Materials
Processes
Solid Mechanics
Strain hardening
Surface layer
Synchrotrons
Texture
재료공학
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Title Compressive deformation behavior of CrMnFeCoNi high-entropy alloy
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