The microstructures of equiatomic TiNbTaZrMo (Ti20Nb20Ta20Zr20Mo20-subscript numerals denote at.%) and non-equiatomic Ti2.6NbTaZrMo (Ti39.4Nb15.2Ta15.2Zr15.2 Mo-15.2) high-entropy alloys (HEAs) were investigated for use in metallic biomaterials, and discussed based on their thermodynamics. Equiaxial dendrite structures were observed in the as-cast specimens. Ta, Nb, and Mo were abundant in the main dendrite phase with a body centered cubic (bcc) structure, while Ti and Zr showed a tendency to be abundant in the inter-dendrite region with a bcc structure. The distribution of the constituent elements can be explained through the distribution coefficients during solidification estimated using thermodynamic calculations. The thermodynamic calculations focusing on the solidification process were effective not only for the evaluation of the solidification microstructure, but also for the design of Ti-Nb-Ta-Zr-Mobased HEAs. The non-equiatomic Ti2.6NbTaZrMo HEA (Ti39.4Nb15.2Ta15.2Zr15.2Mo15.2) was designed based on thermodynamic calculations and the solidification microstructure was studied.

• 出版日期2018-7-15