465 maraging stainless steel is often formed to the desired shape before conducting aging treatment in order to reduce processing cost. However, there are only few literatures have systematically investigated the precipitation behavior of 465 maraging stainless steel after cold working. Therefore, this study introduced 40% cold rolling then investigated the phase transformation, microstructure and precipitation behavior of 465 maraging stainless steel provided by Gloria Material Technology Corp. at each heat treatment stage by dilatometer, OM, XRD, EBSD, and TEM. First of all, this study derived the isothermal martensite transformation in this material for the first time by dilatometer then observed and quantified the changes of the hierarchical structure and substructure of martensite. After that, we studied the precipitating characteristics of reversed austenite during the aging process. Finally, by using the knowledge of crystallography, this study precisely quantify the size distribution of precipitation. It was found that the increase in dislocation density caused by introducing 40% cold rolling will promote the growth rate of η-Ni3Ti due to pipe diffusion and inhibit the forming of reversed austenite, therefore, proof the competition relationship between η-Ni3Ti and reversed austenite. In this work, the V5 and V6 variants of η-Ni3Ti were also found to grow in pair by using HRTEM at [111]α zone axis, and formed a twinning structure with (11̅02̅)η as twinning plane in the precipitation.