Table of Contents:
- Thermodynamics?
- Statistical Thermo-Dynamics of Polymer Solutions and Blends
- Polymer-Polymer Interactions Based on Mean Field Approximations
- Hydrogen Bonding Systems
- Polymer Blends as Viewed Byanalog Calorimetry
- Crystalline Polymer Blends
- Fundamentals of Blends of Rigid Chain (Liquid Crystal) Polymers
- Thermodynamics of Polyolefin Blends
- Characterization?
- Morphology Characterization by Microscopy Techniques
- Viscoelastic Characterization of Polymer Blends
- Optical Characterization: Light Scattering, Birefringence, and Ellipsometry
- Neutron Scattering and Polymer Blends
- Structure Formation?
- Formulation and Characterization of Thermoset/Thermoplastic Blends
- Chemical Reactions in Blends Based on Condensation Polymers: Transreactions, Molecular and Morphological Characterization
- Morphology and Properties of Blends Containing Block Copolymers
- Factors Influencing the Morphology in Immiscible Polymer Blends in Melt Processing
- Reactive Compatibilization
- Processing Aids
- Mechanical Properties and Fracture Resistance?
- Quasi-Elastic Mechanical Properties
- Application of Fracture Mechanics for Characterization of Toughness of Polymer Blends
- Characterizing Toughness Using Standard Empirical Tests
- Deformation Mechanisms in Rubber-Toughened Polymers
- Strengthening Polymer-Polymer Interfaces
- Core-Shell Impact Modifiers
- Toughening of Semi-Crystalline Thermoplastics
- Toughening of Epoxies
- Fatigue Crack Propagation in Polymer Blends
- Blending for Specific Performance?
- Transmission and Reflection of Light in Multiphase Media
- Thermo-Mechanical Performance of Polymer Blends
- Barrier Materials by Blending
- Reinforced Blends?
- Reinforced Polymer Blends
- Liquid Crystalline Polymer Blends
- Microfibrillar Reinforced Composites From Polymer Blends
- Elastomeric Blends?
- Elastomer Blends
- Thermoplastic Vulcanizates
- Recycling?
- Recycling of Polymer Blends and Mixture
