Abstract
? 2022 Elsevier B.V.In this paper, a series of novel Co-free CrFeNiSix (x = 0.05, 0.15, 0.25) MEAs was prepared via vacuum arc-melting. The addition of Si induced the formation of (Cr, Si)-rich σ phase in CrFeNiSix MEAs, which effectively hindered the migration of dislocations and grain boundaries, resulting in the grain refinement. Meanwhile, the existence of σ phase inhibited the formation of twinning, leading to the decreasing fractions of low-Σ CSL boundaries with the increasing Si addition. Compared with CrFeNi alloy, both the strength and microhardness of CrFeNiSix MEAs were significantly improved, but the plasticity had deteriorated. Overall, there was a good trade-off between strength and ductility in CrFeNiSi0.15 MEA, including the yield strength of 550 ± 5.5 MPa, ultimate tensile strength of 795 ± 7.1 MPa, and elongation of 20 ± 0.4%. In addition, the experimental results demonstrated that the grain boundary strengthening and precipitation strengthening played a dominant role for the strengthening of CrFeNiSix MEAs. The decreased plasticity was mainly attributed to the formation of σ phase and the reduced twinning. Furthermore, the increasing σ phase also resulted in the transformation of fracture mechanisms from ductile fracture to the mixed fracture. Our work provides significant reference for the further development of high performance Co-free MEAs/HEAs.
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