This study examines the effect of weld lines on the strength of injection mold. Weld lines typically occur when the flow fronts of two or more different plastics melt together during the injection process. Weld lines also result from use of molds designed to create a product with holes, or molds with multiple plastic injection gates. In this study, an in-mold rotational device was placed at the weld line. This added rotational disturbance facilitates the mixing of plastic materials at the weld line, effectively disrupting the structure of the polymers. Comparison was then made between the strength of the weld lines observed when using varying modes of rotation at different speeds, and the strength of typical weld lines. Experimental results show that rotational devices indeed result in disturbance of the weld line. Visual inspection shows an apparent effect of rotational disturbance on the state of the weld line, in accordance with expectations. In strengthening the weld lines of injection process when using polycarbonates (PC), due to a low viscosity and low resistance to disturbance, a low rotational speed is optimal in the disruption of weld lines. For a rigid substance with high viscosity such as acrylonitrile butadiene styrene (ABS), which is highly resistant to disturbance, a low rotational speed is also optimal because of the large amounts of tension involved.