Tensile strength prediction of dual-phase Al0.6CoCrFeNi high-entropy alloys

Tensile strength prediction of dual-phase Al0.6CoCrFeNi high-entropy alloys

The evolution of the microstructure and tensile properties of dual-phase Al 0.6 CoCrFeNi high-entropy alloys (HEAs) subjected to cold rolling was investigated. The homogenized Al 0.6 CoCrFeNi alloys consisted of face-centered-cubic and body-centered-cubic phases, presenting similar mechanical behavi...

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Veröffentlicht in:International journal of minerals, metallurgy and materials metallurgy and materials, 2020-10, Vol.27 (10), p.1341-1346
Hauptverfasser: Zhang, Min, Hou, Jin-xiong, Yang, Hui-jun, Tan, Ya-qin, Wang, Xue-jiao, Shi, Xiao-hui, Guo, Rui-peng, Qiao, Jun-wei
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Cold
Cold rolling
Composites
Corrosion and Coatings
Deformation
Ductility
Entropy
Glass
Grain boundaries
Grain size
High entropy alloys
Homogenization
Materials Science
Materials Science, Multidisciplinary
Mechanical properties
Metallic Materials
Metallurgy & Metallurgical Engineering
Mining & Mineral Processing
Morphology
Natural Materials
Physical Sciences
Reduction
Science & Technology
Strain hardening
Surfaces and Interfaces
Technology
Tensile properties
Tensile strength
Thin Films
Tribology
Yield stress
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Zusammenfassung:The evolution of the microstructure and tensile properties of dual-phase Al 0.6 CoCrFeNi high-entropy alloys (HEAs) subjected to cold rolling was investigated. The homogenized Al 0.6 CoCrFeNi alloys consisted of face-centered-cubic and body-centered-cubic phases, presenting similar mechanical behavior as the as-cast state. The yield and tensile strengths of the alloys could be dramatically enhanced to ∼1205 MPa and ∼1318 MPa after 50% rolling reduction, respectively. A power-law relationship was discovered between the strain-hardening exponent and rolling reduction. The tensile strengths of this dual-phase HEA with different cold rolling treatments were predicted, mainly based on the Hollomon relationship, by the strain-hardening exponent, and showed good agreement with the experimental results.
ISSN:1674-4799
1869-103X
DOI:10.1007/s12613-020-2084-2