LAUSR

Abstract The microstructures and mechanical properties of 60NiTi alloys after solution treated at 980 °C, 1005 °C, 1030 °C and 1055 °C for 2 h, 4 h, 8 h were studied. The results showed that there was undissolved Ni3Ti phase in the specimens after heat treated at 980 °C and 1005 °C for 8 h, and the specimens consisted of Ni3Ti, B2 NiTi and Ni4Ti3 phase. The volume fraction of the Ni4Ti3 phase was about 36% and 46% respectively. After heated at 1030 °C and 1055 °C for 8 h, specimens consisted of B2 NiTi and Ni4Ti3 phase, and the Ni3Ti phase was totally dissolved into the matrix. As a result, the volume fraction of Ni4Ti3 phase increased to 69% and 64%. Higher density of the Ni4Ti3 phase contributed to the higher hardness and higher ultimate compressive strength. The fracture modes of samples after solution treated were mainly quasi-cleavage fracture. The undissolved Ni3Ti phase improved the fracture toughness of the binary alloy. Crack propagation path in Ni3Ti rich area was featured by a zigzag mode, which indicated that Ni3Ti phase displayed positive effect on fracture toughness. The toughening mechanism of 60NiTi with Ni3Ti phase is emphasized.