Material flow around a friction stir welding tool: Development of a thermo-fluid code

Engineering

• Conducted Experiment 50%
• Constrains 50%
• Development Tool 100%
• Downward Flow 50%
• Finite Element Analysis 100%
• Finite Element Modeling 50%
• Flow Distribution 100%
• Friction Stir Welding 100%
• Heat Flux 50%
• Heat Input 50%
• Input Data 50%
• Main Part 50%
• Material Flow 100%
• Numerical Model 100%
• Operating Parameter 50%
• Plastic Deformation 100%
• Residual Stress 50%
• Rotating Cylinder 50%
• Simulation Result 50%
• Temperature Distribution 100%
• Thin Layer 50%
• Vortex Flow 50%

Keyphrases

• Advancing Speed 25%
• Downward Flow 25%
• Extrusion 25%
• Finite Element 25%
• Finite Element Code 25%
• Finite Element Model 25%
• Flow around 100%
• Flow Effect 25%
• Flow Field 25%
• Fluid Code 100%
• Friction 50%
• Friction Stir Welding 25%
• Friction Stir Welding Tools 100%
• Heat Flux 25%
• Heat Input 25%
• Heat-induced 25%
• Material Flow 100%
• Metallurgy 25%
• Numerical Model 50%
• Operating Parameters 25%
• Pin Geometry 25%
• Plastic Deformation 50%
• Plasticizing 25%
• Residual Stress 25%
• Resulting Temperature 25%
• Rotating Cylinder 25%
• Rotational Speed 25%
• Simple Tools 25%
• Temperature Field 50%
• Thermal Fluid 100%
• Tool Development 100%
• Tool Geometry 25%
• Vortex Flow Field 25%

Material Science

• Finite Element Method 100%
• Finite Element Modeling 50%
• Friction Stir Welding 100%
• Metallurgy 50%
• Plastic Deformation 100%
• Residual Stress 50%
• Surface (Surface Science) 50%
• Vortex 50%