Design of directly cast Ni49Fe20Al17V6Co4Cr4 eutectic high-entropy alloy with outstanding mechanical performance

A novel non-equiatomic Ni49Fe20Al17V6Co4Cr4 eutectic high-entropy alloy (EHEA) with alternating soft FCC/L12 and hard B2 nanolamellae was prepared by directly cast method. The as-cast Ni49Fe20Al17V6Co4Cr4 EHEA exhibits a superior strength-ductility synergy that far outperforms that of some reported...

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Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2024-10, Vol.912, p.146991, Article 146991
Main Authors: Liu, Xiangkui, Wang, Qianye, Zhou, Chenglong, Liu, Jingying, Zhang, Xuecong, Huang, Peidong, Tang, Run, Chu, Zhuqi, Liu, Conghao, An, Xulong, Wang, Dandan, Wei, Wei
Format: Article
Language:English
Subjects:
Deformation mechanisms
Eutectic high-entropy alloys
Mechanical properties
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Summary:A novel non-equiatomic Ni49Fe20Al17V6Co4Cr4 eutectic high-entropy alloy (EHEA) with alternating soft FCC/L12 and hard B2 nanolamellae was prepared by directly cast method. The as-cast Ni49Fe20Al17V6Co4Cr4 EHEA exhibits a superior strength-ductility synergy that far outperforms that of some reported as-cast EHEAs. In particular, the as-cast Ni49Fe20Al17V6Co4Cr4 EHEA shows a high yield strength of 770 MPa, a high tensile strength of 1208 MPa as well as a fracture strain of 15.7 %, respectively. Such an exceptional mechanical property is mainly due to the extensive dislocation activities in both FCC/L12 and B2 nanolamellae. Concretely, the high strength of the as-cast Ni49Fe20Al17V6Co4Cr4 EHEA derives from not only the interface strengthening of ultrafine lamellae soft FCC/L12 and hard B2 phases, but also the hindering of dislocation slipping by ordered L12 nanoprecipitates. The FCC and B2 phases present a stable K–S orientation relationship, which further endows the as-cast EHEA with exceptional strength-ductility combination. The designed Ni49Fe20Al17V6Co4Cr4 EHEA by directly casting provides a promising potential for the widespread engineering applications in the future. •A novel Ni49Fe20Al17V6Co4Cr4 eutectic high-entropy alloy (EHEA) with FCC/L12 and B2 phases was prepared by directly cast method.•The as-cast EHEA exhibits a high yield strength of 770 MPa, a high tensile strength of 1208 MPa and fracture strain of 15.7 %.•Such exceptional mechanical properties is mainly attrbuted to the interface strengthening of FCC/L12 and B2 nano-lamellae and the hindering of dislocation slipping by L12 nanoprecipitates.
ISSN:0921-5093
DOI:10.1016/j.msea.2024.146991