Supporting data for strengthening and deformation behavior of as-cast CoCrCu(1.5)MnNi high entropy alloy with micro-/nanoscale precipitation

The data presented here are related to the research article entitled “Strengthening and deformation behavior of as-cast CoCrCu(1.5)MnNi high-entropy alloy (HEA) with micro-/nanoscale precipitation [1]”. Non-equimolar CoCrCu(1.5)MnNi was cast by the conventional induction melting under a high-purity Ar atmosphere. Scanning electron microscopy equipped with energy dispersive spectroscopy (EDS), and transmission electron microscopy (TEM) were used for micro- and nanostructure characterization. Subsize tensile specimens with two different gage length to width ratio were tested at room and cryogenic temperatures to assess the accuracy of strength and ductility data in the as-cast CoCrCu(1.5)MnNi HEAs. The mixing enthalpy (ΔH(mix)) versus lattice elastic energy (ΔH(el)) criterion was used to predict the stable phases. The data on the effects of microstructural and nanostructural distribution of various phases on mechani-cal properties in the as-cast HEA could be used in designing high entropy alloys with excellent as-cast mechanical performance.