Basic Information
Fluid Mechanics Equations. Stress and Strain Rate Tensors. Newtonian Fluids. Non-newtonian Phenomena. Constitutive Equations. Non-newtonian Flow. Experimental Measurements of Viscosity and Normal Stresses. Elongational Flow. Entrance Losses. Jet Swell and Melt Fracture. Non-newtonian Flow in Dies and Molds. Mixing of Viscous Liquids. Molecular Liquids. Learning Outcomes# At The End of The Course The Students Will Be Able To# 1. Describe The Assumptions and Ramifications of The Continuum Hypothesis. From Conservations of Mass and Momentum. 3. Interpret The Results Of Steady-state Rheometry. 4. Describe Viscoelasticity Phenomenologically 5. Solve Viscoelastic Flow Problems Using Simple Models. 6. Use Material Functions to Describe Polymer Liquids. 7. Apply Molecular Models to Describe Polymer Flow. 8. Describe The Effects Of Concentration On Flow For Flexible Chains and Rigid Rods.
Faculty: Polymer Engineering
|Graduate Studies
Semestrial Information
Weekly Hours
2 Academic Credit • 2 Lecture Hours
Registration Groups
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Weekly Hours
2 Academic Credit • 2 Lecture Hours
Registration Groups
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Weekly Hours
2 Academic Credit • 2 Lecture Hours
Registration Groups
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