Microstructure and Mechanical Properties of Ti-Zr alloys Fabricated by Two-step Spark Plasma Sintering from TiH₂ and ZrH₂ Powders

Ti is well-known for its high strength-to-weight ratio and biocompatibility. It can be alloyed with Zr to improve mechanical properties. Currently, Ti-Zr alloys can be fabricated by powder metallurgy using Ti and Zr powders, although high oxidation reactivity and cost could still be an issue. In this study, premixed TiH₂ and ZrH₂ powders were used to prepare Ti-Zr binary alloys with different Zr contents of 0-30 mass% ZrH₂ via dehydrogenation and sintering by spark plasma sintering (SPS) process. α-Ti and δ-TiH₂ phases coexisted in the sintered Ti-Zr alloys, and a characteristic lamellar microstructure was formed. The tensile strength of the Ti-Zr alloys increased with increasing Zr content due to the solid solution effect, grain refinement, and the appearance of δ-TiH₂ phases, although the elongation was reduced. This study shows that the fabricated Ti-Zr alloys possess controllable mechanical properties, which can be beneficial for biomedical and other engineering applications.