Smoothed Particle Hydrodynamics Approach for Simulation of Non-Newtonian Flow of Feedstocks Used in Powder Injection Molding

Keyphrases

• Powder Injection Molding 100%
• Smoothed Particle Hydrodynamics 100%
• DualSPHysics 100%
• Non-Newtonian Flow 100%
• Hydrodynamic Approach 100%
• Numerical Simulation 66%
• Frictional Effects 66%
• Rheological Properties 33%
• Flow Pattern 33%
• Numerical Solution 33%
• Velocity Field 33%
• Flow Behavior 33%
• Complex Shape 33%
• Relative Difference 33%
• Vol% 33%
• Binder System 33%
• Flow Front 33%
• Viscosity Model 33%
• Real-scale 33%
• Momentum Equation 33%
• Stainless Steel Powder 33%
• Complex Cavity 33%
• Injection Molding Process 33%
• 17-4 PH Stainless Steel 33%
• Injection Press 33%
• Meshless 33%
• Injection Rate 33%
• Boundary Friction 33%
• Boundary Friction Coefficient 33%
• Flow Momentum 33%
• Friction Factor 33%

Engineering

• Hydrodynamics 100%
• Powder Injection 100%
• Injection Moulding 100%
• Newtonian Flow 100%
• Boundary Friction 66%
• Frictional Effect 66%
• Stainless Steel 33%
• Coefficient of Friction 33%
• Flow Distribution 33%
• Experimental Measurement 33%
• Velocity Field 33%
• Numerical Solution 33%
• Fluid Viscosity 33%
• Flow Behavior 33%
• Friction Factor 33%
• Relative Difference 33%
• Binder System 33%
• Flow Front 33%
• Complex Shape 33%
• Momentum Equation 33%
• Injection Moulding Process 33%
• Injection Rate 33%

Material Science

• Injection Molding 100%
• Feedstock 100%
• Hydrodynamics 100%
• Stainless Steel 25%