New β-type titanium alloys with high biocompatibility

Pure titanium and Ti - 6Al - 4V alloy have been mainly used as implant materials. V free titanium alloys like Ti - 6Al - 7Nb and Ti - 5Al - 2.5Fe have been then del eloped because toxicity of V has een pointed out. Al and V free titanium alloys as implant materials have been then developed. Most of them are, however, alpha + beta type alloys. beta type titanium alloys with lower moduli of elasticity and greater strength have been started to be developed recently. Design of new beta type titanium alloys composed of non - toxic elements like Nb, Ta, Zr, Mo or Sn with lower moduli of elasticity and eater strength were, therefore,done based on the d - electron alloy design method, and the basic mechanical properties of designed alloys of button ingots melted by tri - are furnace in the laboratory ere investigated in this study. beta type alloys, Ti - Nb - Ta - Zr, Ti - Nb - Ta - Mo and Ti - Nb - Ta - system alloys designed in this study are expected to have greater performance for implant materials. The Young's moduli of these alloys are lower comparing with that of Ti - 6Al - 4V ELI which has been used as an implant material. The alloys conducted with some heat treatments offer suitable tensile properties as implant materials. The tensile strength, elongation and wear resistance of designed alloys in this study are equivalent or greater comparing with those of conventional biomedical titanium alloys for implant materials.