3-D FEM analysis of the temperature field and the thermal stress for plastics thermalforming

The FEM software ARVIP-3D is developed to simulate the deformation, temperature field, thermal stress and warpage of 3-D plastics thermalforming and blow molding. Temperature has a great effect on plastics forming behavior by influencing the material performance parameters, the fluid viscosity and the fluid behavior exponent. Combined with the rigid–visco-plastic FEM equation for forming computation, the Arrhenius and Williams equation for viscosity computation, the Calerkin FEM equation for the temperature field, the FEM software is developed. Whilst simulating the 3-D temperature field, the dynamic heat-conduction boundary condition is adopted, latent heat and deformation heat being treated as dynamic internal heat source in FEM equation. The computational results of adopting the analytical method and the FEM program developed by the authors indicate that the program of analyzing the temperature field is accurate. The simulation result of the temperature distribution corresponding to the thickness distribution agrees well with the experimental results of other researchers. This provides the theoretical basis and a guide for acquiring the thickness distribution of a part by a simple, convenient and non-destructive temperature measurement in practical production, and provides a useful tool to optimize the technique to secure an even distribution of thickness in the part. The warpage and thermal-stress analysis can predict defects and optimize the cooling system to secure an even temperature distribution within the part to assure the partʹs final shape, practical performance and strength.