The plastic products are widely used in many items in all walks of life. They play an important role in those appearance and structural parts. With the improvement of the quality of plastic materials and the new method of the plastic material technique appear, the plastic products are used in high-precision mechanical devices and spare-parts more and more widely. However, there are many problems still affect the quality. The main purpose of this study wants to research the residual stress of the plastic products after the injection molding manufacturing process, find the effect of the manufacturing conditions and the relationship. Then create a process of optimization for both residual stress and warpage. Using the 3D moldflow analysis software - Moldex3D and Taguchi’s experimental method and controlling the manufacturing conditions to analyze the rectangular sheet and the part of robot foots. To Observes the residual stress, we use the simulation photoelastic method to analyze the distribution of the residual stress. Therefore, find and analyze the relationship of the residual stress and warpage. Expect to maintain the ideal shape and can also improve the residual stress and warpage after the injection molding manufacturing process of plastic products. According to this paper, in the injecting time, melting temperature, packing time, cooling time, packing pressure, and injecting pressure, the manufacturing conditions have the most effective to residual stress are injecting time and melting temperature. The manufacturing conditions have the most effective to warpage are cooling time and packing pressure. Using these relationships, we can generalize a batter combination of manufacturing conditions to optimize both residual stress and warpage.