Investigations on phase formation and magnetic properties of promisingCo35Cr5Fe10Ni30Ti20 high entropy alloysynthesized through radio frequency induction melting

Previously, we designed and developed a promising excellent soft magnetic Co35Cr5Fe10Ni30Ti20High Entropy Alloy (HEA) through mechanical alloying (MA) followed by annealing at 790 ̊C. Densification of the powder sample synthesized through MA is critical for industrial a pplications, particularly as amagnetic material. Therefore, in the present study,optimizedCo35Cr5Fe10Ni30Ti20 HEA is synthesized again through the radio frequency (RF) induction melting.The X-ray diffraction (XRD) analysis of the RF induction melted HEA revealed the formation of mixture of fcc and ordered B2 phase. The phase stability of synthesized HEA has also been investigated through annealing at 790 °C for 2 h. Thesynthesized HEA maintained its phase identity after annealing. The synthesized and annealed Co35Cr5Fe10Ni30Ti20HEAs showed ferromagnetic behavior with high saturation magnetization (Ms) and low coercivity (Hc). For as-synthesized Co35Cr5Fe10Ni30Ti20 HEA, the value of Ms and Hcis found to be 80.22 emu/g and 4.63 Oe, respectively. However, after annealing, the value of Hcis increased to 7.89 Oe, while Ms remained same to as synthesized HEA.Vickers hardness test was also performed on the synthesized and annealed HEAs. The results displayed that hardness increased after annealing upto 512.50 Hv. The present studynot only investigates phase formation and magnetic properties of RF induction melted HEA but it also emphasizes the effect of the processing route on the structural, magnetic, and mechanical properties of the most promising magnetic Co35Cr5Fe10Ni30Ti20 HEA. The found value of hardness for the RF- melted Co35Cr5Fe10Ni30Ti20 HEA is excellent as compared to the conventional soft magnetic materials such as polycrystalline Fe (100–150 Hv), Fe50Ni50 (120 Hv) etc. The present investigation is also important for the industrial development of the magnetic Co35Cr5Fe10Ni30Ti20 HEA. •A promising Co35Cr5Fe10Ni30Ti20 HEA is synthesized through RF-melting.•The synthesized HEA has mixture of fcc and B2 phase.•The synthesized phases are stable after annealing at 790 C.•The found value of Ms and Hc for synthesized and annealed HEA are 80.22 emu/g &4.63 Oe and 79.70 emu/g, &7.89 Oe respectively.•The hardness value of annealed HEA (512.50 HV) is highest as compared to most of conventional soft magnets.