Shape Memory Characteristics and Mechanical Properties of Powder Metallurgy Processed Ti_(50)Ni_(40)Cu_(10) Alloy

摘要

Ti-Ni-Cu alloy powders were prepared by gas atomization and porous bulk specimens were fabricated by spark plasma sintering (SPS). The microstructure of as-solidified powders exhibited a cellular structure and they contained a high density of nano-sized porosities which were located in the intercellular regions. XRD analysis showed that one-step martensitic transformation of B2-B19 occurred in all alloy powders and SPS specimens. When the martensitic transformation start temperature (M_s) and austenite transformation finish temperature (A_f) were determined in order to analyze the dependence of powder size on transformation temperatures, the M_s increased slightly from - 17.5℃ to - 14.6℃ as increasing the powder size ranging from between 25 and 50 μm to ranging between 100 and 150 μm. However, the M_s and A_f of the as-atomized powders is much smaller than those of SPS specimens and the M_s of porous specimen was about 10.9℃. Loading-unloading compressive tests were carried out to investigate the mechanical properties of porous Ti-Ni-Cu specimen. The specimen was compressed to the strain of 6% at a temperature higher than A_f. After unloading, the residual strain was 2.1%. After the compressed specimen was heated to 60℃ and held for 30 minutes and then cooled to room temperature, the changes in the length of the specimens were measured. Then it was found that the recovered strain ascribed to shape memory effect was 1.5%.