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Enhancing Strength-Ductility Synergy of CoCrNi-Based Medium-Entropy Alloy Through Coherent L12 Nanoprecipitates and Grain Boundary Precipitates

Leilei Li, Kaikai Song, Qingwei Gao, Changshan Zhou, Xiaoming Liu, Yaocen Wang, Xiaojun Bai, Chongde Cao

2023Acta Metallurgica Sinica (English Letters)15 citationsDOIOpen Access PDF

Abstract

Abstract The L1 2 -strengthened Co 34 Cr 32 Ni 27 Al 4 Ti 3 medium-entropy alloy (MEA) with precipitations of grain boundaries has been developed through selective laser melting (SLM) followed by cold rolling and annealing, exhibiting excellent strength-ductility synergy. The as-printed alloy exhibits low yield strength (YS) of ~ 384 MPa, ultimate tensile strength (UTS) of ~ 453 MPa, and uniform elongation (UE) of 1.5% due to the existence of the SLM-induced defects. After cold rolling and annealing, the YS, UTS, and UE are significantly increased to ~ 739 MPa, ~ 1230 MPa, and ~ 47%, respectively. This enhancement primarily originates from the refined grain structure induced by cold rolling and annealing. The presence of coherent spherical γ ' precipitates (L1 2 phases) and Al/Ti-rich precipitates at the grain boundaries, coupled with increased lattice defects such as dislocations, stacking faults, and ultrafine deformation twins, further contribute to the property’s improvement. Our study highlights the potential of SLM in producing high-strength and ductile MEA with coherent L1 2 nanoprecipitates, which can be further optimized through subsequent rolling and annealing processes. These findings offer valuable insights for the development of high-performance alloys for future engineering applications.

Topics & Concepts

Materials scienceAnnealing (glass)Ultimate tensile strengthAlloyGrain boundaryMetallurgyElongationSelective laser meltingDuctility (Earth science)Grain boundary strengtheningComposite materialMicrostructureCreepHigh Entropy Alloys StudiesAdditive Manufacturing Materials and ProcessesHigh-Temperature Coating Behaviors