Plastic injection molding is one of the mass production methods of plastic products. In the production process, weld lines and residual stress are the most common defects of plastic products. In weld lines research, four mold mechanisms, (namely, rapid heating and cooling system, in-mold rotating system, in-mold punching system, and local heating system) were designed to eliminate the weld lines for traditional injection molding, plastics with metal powders injection molding and insert molding. In residual stress research, different heat treatment parameters were tested in plastic injection molding parts. In this respects, photoelastic method was to use measure the extent of the residual stress relief of the parts. Experimental results showed that in traditional injection molding, rapid heating and cooling system can improve the weld lines defects, weld lines strength was raised for about 6.8%, the depth of the weld lines were reduced to 0.5μm from 12μm; in the injection molding of the plastic with metal powders, in-mold rotating system can blur the weld lines in low rotate speed (25 rad/sec) but can’t completely eliminate the defects. However, in-mold punch system can produce the plastic parts with no weld lines in the same production process; in insert molding, two plastic parts (regulator for SCUBA diving and boss test parts) was tested, the experimental results showed that with the local heating system, the yield of the regulator was raised from 30% to 100%; the strength of the boss test parts raises from 5%~20%. In residual stress research, the experimental results showed that the heat treatment of the injected plastic parts reduce the residual stress. Polycarbonate test parts with thickness less than 2.5mm, heat treated for 30 minutes showed that a decrease of 50% of the residual stress can be achieved.