In order to develop new functional biomaterials, the Zr Au alloy system was focused and a Zr 9 molAu near eutectoid alloy was used in this work. Effect of solution treatment and aging treatment temperatures on phase constituent, microstructure and Vickers hardness was investigated. It was found that Zr 9 molAu is a hypereutectic composition and experimental results in this work are not in agreement with the experimental phase diagram reported by Lomello Tafin et al., but in good agreement with the calculated phase diagram reported Su et al. The major apparent phase was hcp aZr regardless of the heat treatment condition and Zr 3 Au second phase precipitated when heat treated at 1173 K or lower temperatrues. The Vickers hardness value was HV503 after the solution treatment at 1273 K, but became lower with increasing the amount of micrometer size Zr 3 Au precipitates. The hardness of this alloy was mainly due to the amount of the solute Au in aZr matrix. However, the alloy was slightly hardened by aging at 673 K due to the formation of submicron meter size fine Zr 3 Au precipitates.
The effect of annealing temperature on texture formation associated with superelastic behavior is clarified of Ti 4Au 5Cr 8Zr biomedical alloy in which Ti 3 Au precipitates at 973 K and 1073 K but does not precipitate at 1173 K. A Ti 4Au 5Cr 8Zr alloy ingot was cold rolled with a reduction up to 98 in thickness followed by annealing at 973, 1073 and 1173 K for 1.8 ks. It was found that the as rolled alloy and the alloy annealed at 973 K exhibit {112} b 〈110〉 b rolling texture, while the alloys annealed at 1073 K and 1173 K exhibit {001} b 〈110〉 b recrystallization texture regardless of Ti 3 Au precipitates. {001} b 〈110〉 b texture develops stronger in the alloy annealed at 1173 K compare with the alloy annealed at 1073 K. This is one of the reasons why alloy annealed at 1173 K shows larger shape recovery strain than the alloy annealed at 1073 K when tensile strain is applied along the rolling direction.
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