Fundamental Principles of Polymeric Materials by Brazel, Christopher S. -- Read -- Imperial Library of Trantor

Index

Cover Title Page Copyright Preface Preface to the Second Edition Acknowledgements Chapter 1: Introduction

References

Part I: Polymer Fundamentals

Chapter 2: Types of Polymers

2.1 Reaction to Temperature 2.2 Chemistry of Synthesis 2.3 Structure 2.4 Conclusions Reference

Chapter 3: Molecular Structure of Polymers

3.1 Types of Bonds 3.2 Bond Distances and Strengths 3.3 Bonding and Response to Temperature 3.4 Action of Solvents 3.5 Bonding and Molecular Structure 3.6 Stereoisomerism in Vinyl Polymers 3.7 Stereoisomerism in Diene Polymers 3.8 Summary References

Chapter 4: Polymer Morphology

4.1 Amorphous and Crystalline Polymers 4.2 The Effect of Polymer Structure, Temperature, and Solvent on Crystallinity 4.3 The Effect of Crystallinity on Polymer Density 4.4 The Effect of Crystallinity on Mechanical Properties 4.5 The Effect of Crystallinity on Optical Properties 4.6 Models for the Crystalline Structure of Polymers 4.7 Extended Chain Crystals 4.8 Liquid Crystal Polymers 11 References

Chapter 5: Characterization of Molecular Weight

5.1 Introduction 5.2 Average Molecular Weights 5.3 Determination of Average Molecular Weights 5.4 Molecular Weight Distributions 5.5 Gel Permeation (Or Size-Exclusion) Chromatography (GPC, SEC) [7] 5.6 Summary References

Chapter 6: Thermal Transitions in Polymers

6.1 Introduction 6.2 The Glass Transition 6.3 Molecular Motions in an Amorphous Polymer 6.4 Determination of Tg 6.5 Factors that Influence Tg [4] 6.6 The Effect of Copolymerization on Tg 6.7 The Thermodynamics of Melting 6.8 The Metastable Amorphous State 6.9 The Influence of Copolymerization on Thermal Properties 6.10 Effect of Additives on Thermal Properties 6.11 General Observations About Tg AND Tm 6.12 Effects of Crosslinking 6.13 Thermal Degradation of Polymers 6.14 Other Thermal Transitions References

Chapter 7: Polymer Solubility and Solutions

7.1 Introduction 7.2 General Rules for Polymer Solubility 7.3 Typical Phase Behavior in Polymer–Solvent Systems 7.4 The Thermodynamic Basis of Polymer Solubility 7.5 The Solubility Parameter 7.6 Hansen's Three-Dimensional Solubility Parameter 7.7 The Flory–Huggins Theory 7.8 Properties of Dilute Solutions 7.9 Polymer–Polmyer-Common Solvent Systems 7.10 Polymer Solutions, Suspensions, and Emulsions 7.11 Concentrated Solutions: Plasticizers Problems References

Part II: Polymer Synthesis

Chapter 8: Step-Growth (Condensation) Polymerization

8.1 Introduction 8.2 Statistics of Linear Step-Growth Polymerization 8.3 Number-Average Chain Lengths 8.4 Chain Lengths on a Weight Basis 8.5 Gel Formation 8.6 Kinetics of Polycondensation Problems References

Chapter 9: Free-radical Addition (Chain-Growth) Polymerization

9.1 Introduction 9.2 Mechanism of Polymerization 9.3 Gelation in Addition Polymerization 9.4 Kinetics of Homogeneous Polymerization 9.5 Instantaneous Average Chain Lengths 9.6 Temperature Dependence of Rate and Chain Length 9.7 Chain Transfer and Reaction Inhibitors 9.8 Instantaneous Distributions in Free-Radical Addition Polymerization 9.9 Instantaneous Quantities 9.10 Cumulative Quantities 9.11 Relations Between Instantaneous and Cumulative Average Chain Lengths for A Batch Reactor 9.12 Emulsion Polymerization 9.13 Kinetics of Emulsion Polymerization in Stage II, Case 2 9.14 Summary Problems References

Chapter 10: Advanced Polymerization Methods

10.1 Introduction 10.2 Cationic Polymerization [1–4] 10.3 Anionic Polymerization [5–7] 10.4 Kinetics of Anionic Polymerization [5, 6, 9] 10.5 Group-Transfer Polymerization 10.6 Atom Transfer Radical Polymerization 10.7 Heterogeneous Stereospecific Polymerization [13--15] 10.8 Grafted Polymer Surfaces 10.9 Summary References

Chapter 11: Copolymerization

11.1 Introduction 11.2 Mechanism 11.3 Significance of Reactivity Ratios 11.4 Variation of Composition with Conversion 11.5 Copolymerization Kinetics 11.6 Penultimate Effects and Charge-Transfer Complexes 11.7 Summary References

Chapter 12: Polymerization Practice

12.1 Introduction 12.2 Bulk Polymerization 12.3 Gas-Phase Olefin Polymerization 12.4 Solution Polymerization 12.5 Interfacial Polycondensation 12.6 Suspension Polymerization 12.7 Emulsion Polymerization 12.8 Summary References

Part III: Polymer Properties

Chapter 13: Rubber Elasticity

13.1 Introduction 13.2 Thermodynamics of Elasticity 13.3 Statistics of Ideal Rubber Elasticity [1,2,5] 13.4 Summary References

Chapter 14: Introduction to Viscous Flow and the Rheological Behavior of Polymers

14.1 Introduction 14.2 Basic Definitions 14.3 Relations Between Shear Force and Shear Rate: Flow Curves 14.4 Time-Dependent Flow Behavior 14.5 Polymer Melts and Solutions 14.6 Quantitative Representation of Flow Behavior 14.7 Temperature Dependence of Flow Properties 14.8 Influence of Molecular Weight on Flow Properties 14.9 The Effects of Pressure on Viscosity 14.10 Viscous Energy Dissipation 14.11 Poiseuille Flow 14.12 Turbulent Flow 14.13 Drag Reduction 14.14 Summary Problems References

Chapter 15: Linear Viscoelasticity

15.1 Introduction 15.2 Mechanical Models for Linear Viscoelastic Response 15.3 The Four-Parameter Model and Molecular Response 15.4 Viscous or Elastic Response? The Deborah Number [1] 15.5 Quantitative Approaches to Model Viscoelasticity [2–5] 15.6 The Boltzmann Superposition Principle 15.7 Dynamic Mechanical Testing 15.8 Summary Problems References

Chapter 16: Polymer Mechanical Properties

16.1 Introduction 16.2 Mechanical Properties of Polymers 16.3 Axial Tensiometers 16.4 Viscosity Measurement 16.5 Dynamic Mechanical Analysis: Techniques 16.6 Time–Temperature Superposition 16.7 Summary Problems References

Part IV: Polymer Processing and Performance

Chapter 17: Processing

17.1 Introduction 17.2 Molding 17.3 Extrusion [14–17] 17.4 Blow Molding [18] 17.5 Rotational, Fluidized-Bed, and Slush Molding 17.6 Calendering 17.7 Sheet Forming (Thermoforming) [19, 20] 17.8 Stamping 17.9 Solution Casting 17.10 Casting 17.11 Reinforced Thermoset Molding 17.12 Fiber Spinning 17.13 Compounding 17.14 Lithography 17.15 Three-Dimensional (Rapid) Prototyping 17.16 Summary Problems References

Chapter 18: Polymer Applications: Plastics and Plastic Additives

18.1 Introduction 18.2 Plastics 18.3 Mechanical Properties of Plastics 18.4 Contents of Plastic Compounds 18.5 Sheet Molding Compound for Plastics 18.6 Plastics Recycling References

Chapter 19: Polymer Applications: Rubbers and Thermoplastic Elastomers

19.1 Introduction 19.2 Thermoplastic Elastomers [1, 2] 19.3 Contents of Rubber Compounds 19.4 Rubber Compounding [7, 8] References

Chapter 20: Polymer Applications: Synthetic Fibers

20.1 Synthetic Fibers 20.2 Fiber Processing 20.3 Fiber Dyeing 20.4 Other Fiber Additives and Treatments 20.5 Effects of Heat and Moisture on Polymer Fibers

Chapter 21: Polymer Applications: Surface Finishes and Coatings

21.1 Surface Finishes 21.2 Solventless Coatings 21.3 Electrodeposition [5, 6] 21.4 Microencapsulation References

Chapter 22: Polymer Applications: Adhesives

22.1 Adhesives References

Index

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