Two-Dimensional Finite Element Simulation of Material Flow in the Friction Stir Welding Process

Material flow during friction stir welding is very complex and not fully understood. Most of studies in literature used threaded pins since most industrial applications currently use threaded pins. However, initially threaded tools may become unthreaded because of the tool wear when used for high me

The authors regret that in the original printing of the above article, Fig. 4(a and b) is incorrect. The corrected figure is printed below. Fig. 4 -The qualitative comparison of the microstructure and the equivalent plastic strain (a) microstructure [7]; (b) main regions of friction stir welds [7];

This paper describes research work concerned with the three-dimensional finite-element simulation of the fullering process. The main objectives of this preliminary study are to provide the details of metal flow during the process in order to investigate the effects of various parameters, to examine

A modified discrete element method in which the hydrodynamic contribution is taken into account is proposed to simulate the deformation and breakup process of coagulated particles in two-dimensional shear and elongational flows. The simulation was performed for aggregates of various sizes, constitut

In this work a comparative study of two versions of the projection algorithm used either for time integration or as an iterative method to solve the three-dimensional incompressible Navier -Stokes equations is presented. It is also shown that these projection algorithms combined with the finite elem