Transformation temperatures of solid-solution(SS) treated Ti50Ni50, Ti40.5Ni49.5Hf10, Ti50Ni50-xYx (Y= Fe、Pd、Cu) SMAs and aged Ni-rich TiNi SMAs are characterized by 50 times thermal cycles. Experimental results indicate that the martensitic transformation exhibited higher shear strain value causes larger depression on transformation temperature during thermal cycling. In aged Ni-rich TiNi SMAs, Ti3Ni4 precipitates(ppts) can inhibit the depression of transformation temperature, while Ti2Ni3 ppts can’t. The transformation characteristics of aged Ni-rich Ti47.8Ni52.2 (A alloy) and Ti47.6Ni52.4 (B alloy) SMAs are also investigated. Both alloys are SS and then aged at 300 ºC to 600°C and exhibit similar phase transformation behavior. With higher Ni content, B alloy has broader transformation peak, lower ΔH value and higher thermal hysteresis. Periods I~III are observed when both alloys are aged at different temperature and time. In period I, only Ti3Ni4 ppts distribute homogeneously in the alloy. In period II, the Ti2Ni3 ppts form and the Ti3Ni4 depletion zone appear around Ti2Ni3 plates. In period III, more Ti2Ni3 ppts form and grow and Ti3Ni4 ppts dissolve entirely. During aging from 300 ºC to 500°C, A/B alloys are almost in period I and behave a B2↔R or B2↔R↔B19’ transformation. When aging at 500°C for more than 250hrs, A/B alloys are in period II. When aging at 550°C for 25~1000hrs, A/B alloys are in period II and a four-stage transformation B21↔R1↔B19’1 (related to Ti3Ni4 ppts) + B22↔R2↔B19’2 (related to Ti2Ni3 ppts) occurs. When aging at 600°C for the early aging time, A/B alloys are in period I, a single-stage transformation B21↔B19’1 occurs. For the middle aging time, A/B alloys are in period II, a three-stage transformation (B21↔B19’1) + (B22↔R2↔B19’2) occurs. For the longer aging time, A/B alloys are in period III, and a two-stage transformation B22↔R2↔B19’2 appears.