Achieving high strength and high ductility in Al0.3CoCrNi medium-entropy alloy through multi-phase hierarchical microstructure

The enhancement of strength in materials by conventional strengthening mechanism is always accompanied by loss of ductility due to the reduced strain hardenability, leading to a strength–ductility trade-off. In this paper, we engineered Al0.3CoCrNi medium-entropy alloy to contain multi-phase hierarc...

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Published inMaterialia Vol. 8; p. 100442
Main Authors Sathiyamoorthi, Praveen, Park, Jeong Min, Moon, Jongun, Bae, Jae Wung, Asghari-Rad, Peyman, Zargaran, Alireza, Seop Kim, Hyoung
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2019
Subjects
Back stress
Bimodal grain size
Deformation twinning
Heterogeneous microstructure
Precipitates
Deformation twinning
Bimodal grain size
Heterogeneous microstructure
Precipitates
Back stress
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Abstract The enhancement of strength in materials by conventional strengthening mechanism is always accompanied by loss of ductility due to the reduced strain hardenability, leading to a strength–ductility trade-off. In this paper, we engineered Al0.3CoCrNi medium-entropy alloy to contain multi-phase hierarchical microstructure and demonstrated a high yield strength of ∼1 GPa, a high tensile strength of ∼1.2 GPa, with a uniform elongation and total elongation of ∼28% and ∼39%, respectively. The multi-phase hierarchical microstructure is developed by a simple processing route of cold rolling followed by annealing. The superior combination of strength and ductility is primarily attributed to the generation of back stress, high strain hardening rate, and formation of deformation twins.
AbstractList The enhancement of strength in materials by conventional strengthening mechanism is always accompanied by loss of ductility due to the reduced strain hardenability, leading to a strength–ductility trade-off. In this paper, we engineered Al0.3CoCrNi medium-entropy alloy to contain multi-phase hierarchical microstructure and demonstrated a high yield strength of ∼1 GPa, a high tensile strength of ∼1.2 GPa, with a uniform elongation and total elongation of ∼28% and ∼39%, respectively. The multi-phase hierarchical microstructure is developed by a simple processing route of cold rolling followed by annealing. The superior combination of strength and ductility is primarily attributed to the generation of back stress, high strain hardening rate, and formation of deformation twins.
ArticleNumber 100442
Author Seop Kim, Hyoung
Park, Jeong Min
Moon, Jongun
Zargaran, Alireza
Bae, Jae Wung
Asghari-Rad, Peyman
Sathiyamoorthi, Praveen
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  givenname: Jae Wung
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  surname: Seop Kim
  fullname: Seop Kim, Hyoung
  email: hskim@postech.ac.kr
  organization: Department of Material Science and Engineering, Pohang University of Science and Technology (POSTECH), Pohang 37673, South Korea
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Keywords Deformation twinning
Bimodal grain size
Heterogeneous microstructure
Precipitates
Back stress
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Snippet The enhancement of strength in materials by conventional strengthening mechanism is always accompanied by loss of ductility due to the reduced strain...
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StartPage 100442
SubjectTerms Back stress
Bimodal grain size
Deformation twinning
Heterogeneous microstructure
Precipitates
Title Achieving high strength and high ductility in Al0.3CoCrNi medium-entropy alloy through multi-phase hierarchical microstructure
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