Effects of titanium addition on microstructure and mechanical properties of CrFeNiTi x (x = 0.2–0.6) compositionally complex alloys

Abstract

CrFeNiTi x ( x = 0.2, 0.3, 0.4, 0.5, and 0.6 molar ratio) compositionally complex alloys were fabricated by vacuum arc melting to investigate the microstructure, hardness, and compressive properties. The results revealed that CrFeNiTi x alloys consisted of the principal face-centered cubic (FCC) phase and body-centered cubic (BCC) solid solution, with an amount of (Ni, Ti)-rich hexagonal close-packed phase. CrFeNiTi x alloys exhibited the typical dendrite. Ti0.2 and Ti0.3 alloys were composed of FCC and BCC solid solutions in the dendrite, as well as e (Ni 3 Ti) and R (Ni 2.67 Ti 1.33 ) phases in the inter-dendrite, simultaneously. For Ti0.4, Ti0.5, and Ti0.6 alloys, (Fe, Cr)-rich solid solution separated out and e phase transformed into R phase gradually. Meanwhile, TEM analysis indicated that Ti0.4 alloy matrix consisted of the principal FCC phase containing (Ni, Ti)-rich intragranular nanoprecipitates. The hardness values of CrFeNiTi x alloys were increased with the addition of Ti content and the high compressive strength of CrFeNiTi x alloys was maintained, which was attributed to the solid solution strengthening and precipitation hardening.