A finite element model based on solid mechanics was developed with ABAQUS to study the material flow in wholeprocess of friction stir welding (FSW), with the technique of tracer particles. Simulation results indicat...A finite element model based on solid mechanics was developed with ABAQUS to study the material flow in wholeprocess of friction stir welding (FSW), with the technique of tracer particles. Simulation results indicate that the flow pattern of thetracer particles around the pin is spiral movement. There are very different flow patterns at the upper and lower parts of the weld. Thematerial on the upper surface has the spiral downward movement that is affected by the shoulder and the lower material has the spiralupward movement that is affected by the pin. The velocity of the material flow on the periphery of the stirring pin is higher than thatat the bottom of the stirring pin. The material can be rotated with a stirring pin a few times, agreeing well with the previousexperimental observation by tungsten tracer particles.展开更多
基金Projects(51331008,51405310,51401219)supported by the National Natural Science Foundation of China
文摘A finite element model based on solid mechanics was developed with ABAQUS to study the material flow in wholeprocess of friction stir welding (FSW), with the technique of tracer particles. Simulation results indicate that the flow pattern of thetracer particles around the pin is spiral movement. There are very different flow patterns at the upper and lower parts of the weld. Thematerial on the upper surface has the spiral downward movement that is affected by the shoulder and the lower material has the spiralupward movement that is affected by the pin. The velocity of the material flow on the periphery of the stirring pin is higher than thatat the bottom of the stirring pin. The material can be rotated with a stirring pin a few times, agreeing well with the previousexperimental observation by tungsten tracer particles.
