Transformation behavior of Ti49.2Ni50.8 and Ti49.4Ni50.6 shape memory alloys(SMAs) after 35% cold rolling and subsequent aging are investigated. The distribution of Ti3Ni4 precipitates directly affect the transformation behavior of these SMAs. After 500℃×12~24hr and 550℃×40min~1hr aging for Ti49.2Ni50.8 SMA, the supersaturated Ni atoms in the grain center can not diffuse to grain boundaries due to the grain size of Ti49.2Ni50.8 is large enough(about 50µm) and thus, there are three distanct regions resulted in the grain, i.e., region Ⅰ(grain interior), region Ⅲ(grain boundary) and region Ⅱ(region between Ⅰ and Ⅲ). Three-step transformation of B2ⅠⅡⅢ→RⅠⅡⅢ, RⅠⅢ→B19’ⅠⅢ, and RⅡ→B19’Ⅱ is induced from these regions. After 500℃×10~14hr aging, the Ti3Ni4 precipitates in Ti49.4Ni50.6 SMA distribute homogeneously in the grain but their mean interparticle spacing is in excess of 1μm. In this case, there are two regions resulted in the grain, i.e., region Ⅰ(near the precipitate/matrix interface which is affected by the coherent stress field) and Ⅱ(the other region in the matrix). Four-step transformation of B2Ⅰ→RⅠ, B2Ⅱ→RⅡ, RⅠ→B19’Ⅰ and RⅡ→B19’Ⅱ is induced from these two regions. After 600℃×7~10min aging in Ti49.4Ni50.6 SMA, the nucleation sites of Ti3Ni4 is much less so the coherent stress field could not overlap each other. Three-step transformation of B2ⅠⅡ→RⅠⅡ, RⅠ→B19’Ⅰ and RⅡ→B19’Ⅱ is induced from these regions.