Introduction to polymer rheology [[electronic resource] /] / Montgomery T. Shaw |
Autore | Shaw Montgomery T |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2012 |
Descrizione fisica | 1 online resource (411 p.) |
Disciplina | 541/.2254 |
Soggetto topico | Polymers - Rheology |
ISBN |
1-283-43221-8
9786613432216 1-118-17021-0 1-118-17022-9 1-118-17019-9 |
Classificazione | TEC021000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Introduction to Polymer Rheology; Contents; 1. INTRODUCTION; A. Polymers and the importance of rheology; B. Rheology in its simplest form; Problems; Suggested references, with commentary; 2. STRESS; A. Stress and pressure; B. Organization of the stress components; C. Coping with subscripts; D. Typical stress tensors; Appendix 2-1: Compilation of equations of motion (ssc); Appendix 2-2: Equations of motion-curvilinear quick list (ssc); Problems; References; 3. VELOCITY, VELOCITY GRADIENT AND RATE OF DEFORMATION; A. Why velocity is simpler than location-Speedometers vs. GPS
B. Velocity gradientsC. Rate of deformation; Appendix 3-1: Components of the rate-of-deformation tensor; Appendix 3-2: Components of the continuity equation; Appendix 3-3: Nomenclature and sign conventions used in popular rheology texts; Problems; References; 4. RELATIONSHIP BETWEEN STRESS AND RATE OF DEFORMATION: THE NEWTONIAN FLUID; A Material idealizations in rheology; B. The Newtonian fluid; Problems; References; 5. GENERALIZED NEWTONIAN FLUIDS-A SMALL BUT IMPORTANT STEP TOWARD A DESCRIPTION OF REAL BEHAVIOR FOR POLYMERS A. Reasons for inventing generalized Newtonian fluids-behavior of polymer meltsC. Generalizing the GNF to three dimensions; D. Inventing relationships for viscosity vs. shear rate; E. Short primer on finding GNF parameters from data; F. Summary of GNF characteristics; Appendix 5-1: Fitting data with Excel®; Problems; References; 6. NORMAL STRESSES-ORDINARY BEHAVIOR FOR POLYMERS; A. Introduction; B. What are normal stresses?; C. Origin of normal stresses in simple shear; D. The second normal-stress difference; E. Normal-stress coefficients and empirical findings F. Transient rheological functionsD. Temperature effects and superposition of steady-flow data; Problems; References; 7. EXPERIMENTAL METHODS; A. Measurement of viscosity; B. Normal stresses from shearing flows; C. Extensional rheology; D. Specialized geometries; E. Flow visualization and other rheo-optical methods; F. Micro and nano rheology; Appendix 7-1: Numerical derivatives; Appendix 7-2: Velocity-profile correction for non-Newtonian fluids; Appendix 7-3: Incorporation of slip into the velocity-profile correction-the Mooney correction Appendix 7-4: Normal stresses using the cone-and-plate geometryAppendix 7-5: Desktop rheo-optical experiment; Problems; References; 8. STRAIN, SMALL AND LARGE; A. Displacement; B. Infinitesimal strain; C. Hookean solids; D. Finite strain; E. The Lodge elastic fluid and variants; F. The Cauchy strain measure; G. Fixing up integral equations based on C and C-1; Appendix 8-1: The relaxation function; Appendix 8-2: Constant-rate extension of the LEF; Problems; References; 9. MOLECULAR ORIGINS OF RHEOLOGICAL BEHAVIOR; A. Description of polymer molecules B. The Rouse chain-a limited description of polymer behavior |
Record Nr. | UNINA-9910139725003321 |
Shaw Montgomery T
![]() |
||
Hoboken, N.J., : Wiley, c2012 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Introduction to polymer rheology [[electronic resource] /] / Montgomery T. Shaw |
Autore | Shaw Montgomery T |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2012 |
Descrizione fisica | 1 online resource (411 p.) |
Disciplina | 541/.2254 |
Soggetto topico | Polymers - Rheology |
ISBN |
1-283-43221-8
9786613432216 1-118-17021-0 1-118-17022-9 1-118-17019-9 |
Classificazione | TEC021000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Introduction to Polymer Rheology; Contents; 1. INTRODUCTION; A. Polymers and the importance of rheology; B. Rheology in its simplest form; Problems; Suggested references, with commentary; 2. STRESS; A. Stress and pressure; B. Organization of the stress components; C. Coping with subscripts; D. Typical stress tensors; Appendix 2-1: Compilation of equations of motion (ssc); Appendix 2-2: Equations of motion-curvilinear quick list (ssc); Problems; References; 3. VELOCITY, VELOCITY GRADIENT AND RATE OF DEFORMATION; A. Why velocity is simpler than location-Speedometers vs. GPS
B. Velocity gradientsC. Rate of deformation; Appendix 3-1: Components of the rate-of-deformation tensor; Appendix 3-2: Components of the continuity equation; Appendix 3-3: Nomenclature and sign conventions used in popular rheology texts; Problems; References; 4. RELATIONSHIP BETWEEN STRESS AND RATE OF DEFORMATION: THE NEWTONIAN FLUID; A Material idealizations in rheology; B. The Newtonian fluid; Problems; References; 5. GENERALIZED NEWTONIAN FLUIDS-A SMALL BUT IMPORTANT STEP TOWARD A DESCRIPTION OF REAL BEHAVIOR FOR POLYMERS A. Reasons for inventing generalized Newtonian fluids-behavior of polymer meltsC. Generalizing the GNF to three dimensions; D. Inventing relationships for viscosity vs. shear rate; E. Short primer on finding GNF parameters from data; F. Summary of GNF characteristics; Appendix 5-1: Fitting data with Excel®; Problems; References; 6. NORMAL STRESSES-ORDINARY BEHAVIOR FOR POLYMERS; A. Introduction; B. What are normal stresses?; C. Origin of normal stresses in simple shear; D. The second normal-stress difference; E. Normal-stress coefficients and empirical findings F. Transient rheological functionsD. Temperature effects and superposition of steady-flow data; Problems; References; 7. EXPERIMENTAL METHODS; A. Measurement of viscosity; B. Normal stresses from shearing flows; C. Extensional rheology; D. Specialized geometries; E. Flow visualization and other rheo-optical methods; F. Micro and nano rheology; Appendix 7-1: Numerical derivatives; Appendix 7-2: Velocity-profile correction for non-Newtonian fluids; Appendix 7-3: Incorporation of slip into the velocity-profile correction-the Mooney correction Appendix 7-4: Normal stresses using the cone-and-plate geometryAppendix 7-5: Desktop rheo-optical experiment; Problems; References; 8. STRAIN, SMALL AND LARGE; A. Displacement; B. Infinitesimal strain; C. Hookean solids; D. Finite strain; E. The Lodge elastic fluid and variants; F. The Cauchy strain measure; G. Fixing up integral equations based on C and C-1; Appendix 8-1: The relaxation function; Appendix 8-2: Constant-rate extension of the LEF; Problems; References; 9. MOLECULAR ORIGINS OF RHEOLOGICAL BEHAVIOR; A. Description of polymer molecules B. The Rouse chain-a limited description of polymer behavior |
Record Nr. | UNINA-9910809687503321 |
Shaw Montgomery T
![]() |
||
Hoboken, N.J., : Wiley, c2012 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|