John Wiley & Sons, York, Chichester, Brisbane, Toronto, Singapore,
1987. 649 р.
Volume 1 Fluid Dynamics
Part I. Newtonian versus Non-Newtonian Behavior
Chapter 1 Review of Newtonian Fluid Dynamics
Chapter 2 Flow Phenomena in Polymeric Liquids
Chapter 3 Material Functions for Polymeric Liquids
Part II. Elementary Constitutive Equations and Their Use in Solving Fluid Dynamics Problems
Chapter 4 The Generalized Newtonian Fluid
Chapter 5 The General Linear Viscoelastic Fluid
Part III. Nonlinear Viscoelastic Constitutive Equations and Their Use in Solving Fluid Dynamics Problems
Chapter 6 The Retarded Motion Expansion
Chapter 7 Differential Constitutive Equations
Chapter 8 Single-Integral Constitutive Equations
Part IV. Continuum Mechanics and Its Use in Solving Fluid Dynamics Problems
Chapter 9 Continuum Mechanics Concepts
Chapter 10 Fluid Dynamics of Rheometry
Volume 2 Kinetic Theory
Part V. Polymer Models and Equilibrium Properties
Chapter 11 Mechanical Models for Polymer Molecules
Chapter 12 Equilibrium Configurations of Polymer Molecules
Part VI. Elementary Approach to Kinetic Theory
Chapter 13 Elastic Dumbbell Models
Chapter 14 The Rigid Dumbbell and Multibead Models
Chapter 15 The Bead-Spring-Chain Models
Chapter 16 General Bead-Rod-Spring Models
Part VII. A General Phase-Space Kinetic Theory
Chapter 17 Phase-Space Theory of Polymeric Liquids
Chapter 18 Phase-Space Theory for Dilute Solutions
Chapter 19 Phase-Space Theory for Concentrated Solutions and Melts
Part VIII. Elementary Kinetic Theory for Network Models
Chapter 20 Network Theories for Polymer Melts and Concentrated Solutions
Volume 1 Fluid Dynamics
Part I. Newtonian versus Non-Newtonian Behavior
Chapter 1 Review of Newtonian Fluid Dynamics
Chapter 2 Flow Phenomena in Polymeric Liquids
Chapter 3 Material Functions for Polymeric Liquids
Part II. Elementary Constitutive Equations and Their Use in Solving Fluid Dynamics Problems
Chapter 4 The Generalized Newtonian Fluid
Chapter 5 The General Linear Viscoelastic Fluid
Part III. Nonlinear Viscoelastic Constitutive Equations and Their Use in Solving Fluid Dynamics Problems
Chapter 6 The Retarded Motion Expansion
Chapter 7 Differential Constitutive Equations
Chapter 8 Single-Integral Constitutive Equations
Part IV. Continuum Mechanics and Its Use in Solving Fluid Dynamics Problems
Chapter 9 Continuum Mechanics Concepts
Chapter 10 Fluid Dynamics of Rheometry
Volume 2 Kinetic Theory
Part V. Polymer Models and Equilibrium Properties
Chapter 11 Mechanical Models for Polymer Molecules
Chapter 12 Equilibrium Configurations of Polymer Molecules
Part VI. Elementary Approach to Kinetic Theory
Chapter 13 Elastic Dumbbell Models
Chapter 14 The Rigid Dumbbell and Multibead Models
Chapter 15 The Bead-Spring-Chain Models
Chapter 16 General Bead-Rod-Spring Models
Part VII. A General Phase-Space Kinetic Theory
Chapter 17 Phase-Space Theory of Polymeric Liquids
Chapter 18 Phase-Space Theory for Dilute Solutions
Chapter 19 Phase-Space Theory for Concentrated Solutions and Melts
Part VIII. Elementary Kinetic Theory for Network Models
Chapter 20 Network Theories for Polymer Melts and Concentrated Solutions