3D simulation and parametric analysis of polymer melt flowing through spiral mandrel die for pipe extrusion

Engineering

• Mathematical Model 100%
• Isothermal 100%
• Parametric Analysis 100%
• Element Method 100%
• Computational Fluid Dynamics 100%
• Wall Shear Stress 100%
• Flow Characteristics 100%
• Flow Channel 100%
• Increasing Demand 100%
• Pressure Drop 100%
• Mass Flowrate 100%
• Viscous Flow 100%
• Volume Element 100%
• Rheological Behavior 100%
• Melt Flow 100%
• 3d Simulation 100%
• Flow Mechanism 100%
• Power Law Model 100%

Keyphrases

• Parametric Analysis 100%
• Polymer Melt 100%
• Pipe Extrusion 100%
• Spiral Mandrel Die 100%
• 3D Simulation Analysis 100%
• Mathematical Model 25%
• Three-dimensional (3D) 25%
• Non-isothermal 25%
• Increased Demand 25%
• High Productivity 25%
• Flow Pattern 25%
• Wall Shear Stress 25%
• Flow Characteristics 25%
• Computational Fluid Dynamics 25%
• Mass Flow Rate 25%
• Pressure Drop 25%
• Flow Channel 25%
• Structure Parameters 25%
• Complex Flow 25%
• Rheological Behavior 25%
• Die Design 25%
• Polymer pipes 25%
• Flow Mechanism 25%
• Fluid Dynamics Theory 25%
• Viscous Flow 25%
• Polymer Melt Flow 25%
• Mandrel Structure 25%
• Finite Volume Element Method 25%
• Pipe Manufacturing 25%
• Power-law Model 25%
• Shear Temperature 25%

Material Science

• Polymer Melt 100%
• Computational Fluid Dynamics 25%
• Viscous Flow 25%
• Die Design 25%