Mechanism of FCC structure formation in NiCoFeCuMn equiatomic high-entropy alloys

“…The FCC crystal structure is predicted by a VEC greater than 8 [20]. The cast FeNiMnCuCo alloy also develops a single FCC phase in accordance with the present results [40]. In contrast to the VEC prediction, the XRD pattern of the FeNiMnCuTi alloy exhibits an FCC + BCC mixture structure.…”

“…There are several methods used to produce HEAs [29], such as mechanical alloying [30][31][32], arc melting [33,34], addtitive manufacturing [35,36], and laser cladding [37,38]. The phase structure and properties of FeNiMnCuCo and FeNiMnCuCr alloying systems produced by arc melting have been studied before [39,40]. Mechanical alloying was also used to produce FeN-iMnCuCo HEA [41].…”

Alloying, phases and magnetic behaviour of mechanically alloyed FeNiMnCu-based high entropy alloys

“…The FCC crystal structure is predicted by a VEC greater than 8 [20]. The cast FeNiMnCuCo alloy also develops a single FCC phase in accordance with the present results [40]. In contrast to the VEC prediction, the XRD pattern of the FeNiMnCuTi alloy exhibits an FCC + BCC mixture structure.…”

“…There are several methods used to produce HEAs [29], such as mechanical alloying [30][31][32], arc melting [33,34], addtitive manufacturing [35,36], and laser cladding [37,38]. The phase structure and properties of FeNiMnCuCo and FeNiMnCuCr alloying systems produced by arc melting have been studied before [39,40]. Mechanical alloying was also used to produce FeN-iMnCuCo HEA [41].…”

Alloying, phases and magnetic behaviour of mechanically alloyed FeNiMnCu-based high entropy alloys

Fabrication and Characterization of AlxFeMnNiCrCu0.5(x = 0.0; 0.5; 1.0) High-Entropy Alloy Coatings by Laser Cladding

Microstructure, deformation behavior, and dynamic recrystallization kinetics of FeNiMnCu-based high entropy alloys prepared by mechanical alloying and spark plasma sintering