Insert molding is gradually adopted in the product design because it reduces the process of assembly and raises the strength of products. However, the coefficient of thermal expansion (CTE) difference between metal and plastic is significant. It induces crack around the insert parts when these plastic parts encounter temperature variation. A flat specimen with cylindrical insert was designed. We made 4 types of specimens, each type with different mold temperature and insert parts temperature.We compared the residual stress around the insert part and areas away from insert part before and after annealing. Differences that the insert made on thermal residual stress and flow residual stress were discussed. We used temperature cycling and liquid nitrogen quenching to find the relation between cracks and residual stress. Experiment results showed that the effect of annealing for decreasing the residual stress reduced in areas around the insert parts. Higher insert parts temperature in injection increased the annealing time for elimination of residual stress. The cracks appeared at peaks of residual stress.