EFFECTS OF A CAVITY'S FRACTAL BOUNDARY ON THE FREE FRONT INTERFACE OF THE POLYMER FILLING STAGE

The unsmooth boundary of a cavity for the stage of filling glass fiber-reinforced polymer melt affects the flow property and the shape of the free interface's shape, as a result, it will affect greatly the process, the degree and the location of the front interface, and the weld lines' property and product quality as well. Here, the two-scale fractal theory is adopted to figure out the basic property of the unsmooth boundary, and governing equations are established in a fractal space. The numerical results can provide insight into the filling process and reveal the main factors affecting the shape of the free interface. The fractal interface is illustrated by the least-square method in different fractal spaces based on numerical simulation results. The fractal cavity sheds a new light on controlling the interface.

Automated summary

The unsmooth boundary of a cavity for filling glass fiber-reinforced polymer melt significantly affects flow property and the shape of the free interface. Utilizing two-scale fractal theory reveals basic properties, while numerical results offer insight into the filling process. The fractal cavity provides a new approach to controlling the interface.