A boundary element simulation of compression mold filling

## Abstract A model is proposed for the flow, reaction, and heat transfer during compression molding of thin, flat parts. The isothermal Newtonian version of the model is implemented using the finite element method, and is capable of handling arbitrary planar geometries. Automated mesh expansion an

## Abstract An Iterative Boundary Pressure Reflection (IBPR) method has been developed to improve the accuracy of the flow front generation and transient mold filling simulation in injection molding. The method iteratively calculates the virtual pressure reflection, either positive or negative, at

Lach et al./Deformation Behavior of Nitrogen-Alloyed Austenitic Steels at High nounced with increasing hardness. The difference in strength between specimens 3 and 4 amounts to 200 MPa in Figure 4 and 500 MPa in Figure 5. A metallographic study on quasistatically compressed specimens shows localize

## Abstract A two dimensional finite element model for the simulation of the advancing front in reaction injection molding (RIM) is presented. The model is based on the solution of the full Navier‐Stokes equation for the computation of the velocity and pressure. The arbitrary Lagrange‐Euler method