Polymer Blends and Composites
Autor John A. Mansonen Limba Engleză Hardback – 31 dec 1995
Preț: 531.71 lei
Preț vechi: 625.54 lei
-15%
Puncte Express: 798
Carte disponibilă
Livrare economică 23 iulie-06 august
Livrare express 09-15 iulie pentru 54.31 lei
Livrare prin curier în România Termenul estimat este afișat lângă disponibilitate.
Transport gratuit pentru acest produs Plată online sau ramburs, în funcție de opțiunile comenzii.
Retur gratuit în 14 zile Comandă securizată și suport în română.
Specificații
ISBN-13: 9780306308314
ISBN-10: 0306308312
Pagini: 532
Dimensiuni: 152 x 229 x 33 mm
Greutate: 0.95 kg
Editura: Springer Nature B.V.
ISBN-10: 0306308312
Pagini: 532
Dimensiuni: 152 x 229 x 33 mm
Greutate: 0.95 kg
Editura: Springer Nature B.V.
Cuprins
1. Homopolymer Structure and Behavior.- 1.1. High Polymers.- 1.2. Molecular Size and Shape.- 1.3. Molecular Structure.- 1.4. Crystallinity and Order.- 1.5. Mechanical Response: Elasticity and Viscoelasticity.- 1.6. Energetics and Mechanics of Fracture.- 1.7. Mechanical Testing of Polymers.- Appendix A. Polymer Synthesis.- Appendix B. Basic Mechanical Properties and Relationships.- Bibliography of Polymer Books and Journals.- 2. General Behavior of Polymer Mixtures.- 2.1. Methods of Mixing Polymer Pairs.- 2.2. Interdiffusion.- 2.3. Nomenclature.- 2.4. Electron Microscopy.- 2.5. The Incompatibility Problem.- 2.6. Bulk Behavior of Two-Phase Polymeric Materials.- 2.7. Analogy between Polymer Blends and Crystalline Homopolymers.- 2.8. Polymer Blend Chronology.- Appendix A. Counterpart Phase Separation Characteristics of Metallic Alloys and Inorganic Glasses.- Bibliography of Polymer Blend Symposia.- 3. Rubber-Toughened Plastics.- 3.1. Synthesis and Morphology.- 3.2. Physical and Mechanical Behavior of Polyblends.- 3.3. Optical Properties of Polyblends.- 3.4. Oxidation and Weathering of Polyblends.- 4. Diblock and Triblock Copolymers.- 4.1. Synthesis.- 4.2. Solution Behavior of Block Copolymers.- 4.3. Plastic Compositions.- 4.4. Thermoplastic Elastomers.- 4.5. Long-Range Domain Order.- 4.6. Thermodynamics of Domain Characteristics.- 4.7. Thermodynamic Criteria for Phase Separation.- 4.8. Effect of Solvent Casting on Morphology.- 4.9. Effect of Deformation on Morphology.- 4.10. Mixtures of A–B Blocks with A and B Mechanical Blends.- 4.11. Rheological Behavior of Block Copolymers.- 5. Multiblock Copolymers, Including Ionomers.- 5.1. Segmented Polyurethane Elastomers.- 5.2. Carboxylic Rubbers and Ionomers.- 6. Crystalline Block Copolymers.- 6.1. Crystallizable BlockCopolymers: Styrene-Ethylene Oxide.- 6.2. Crystallization: General Aspects.- 6.3. Kinetics of Crystallization.- 6.4. Siloxane Block Copolymers.- 6.5. Polyallomers.- 6.6. Summary of Block Copolymer Systems.- 7. Miscellaneous Grafted Copolymers.- 7.1. General Considerations.- 7.2. Surface Graft Copolymers.- 7.3. Degradation and Crosslinking Reactions.- 7.4. Grafting onto Cellulosic Materials.- 7.5. Nylon Graft Copolymers.- 7.7. Multipolymer Grafts.- 7.8. Cationic Graft Copolymers.- 8. Interpenetrating Polymer Networks.- 8.1. Synthesis.- 8.2. Morphology of IPN’s.- 8.3. Physical and Mechanical Behavior of IPN’s.- 8.4. Ultimate Mechanical Behavior of IPN’s.- 8.5. Interpenetrating Elastomeric Networks (IEN’s).- 8.6. Semi-IPN Structure and Properties.- 8.7. AB Crosslinked Copolymers.- 8.8. Topology of IPN’s.- 8.9. Dual Phase Continuity in IPN’s.- 9. Miscellaneous Polymer Blends.- 9.1. Rubber-Rubber Polyblends.- 9.2. Bicomponent and Biconstituent Fibers.- 9.3. Multilayer Films by Melt Coextrusion.- 9.4. Synthetic Paper Polyblends.- 9.5. Charge-Mosaic Membranes.- 9.6. Flow and Morphology of Two-Component Systems.- 9.7. Compatible Polymer Blends.- 9.8. Wood As a Polyblend-Composite.- 9.9. Association Complexes.- 10. Reinforcement of Elastomers.- 10.1. Historical Aspects.- 10.2. Types of Fillers.- 10.3. Size and Surface Characteristics of Elastomer Reinforcers.- 10.4. Aggregation and Agglomeration.- 10.5. Bound Rubber.- 10.6. The Mullins Softening Effect.- 10.7. Viscoelastic Rupture of Reinforced Elastomers.- 10.8. Restriction of Molecular Mobility by Filler Surfaces.- 10.9. Thermodynamic Aspects of Reinforcement.- 10.10. Swelling Anomalies in Filled Elastomers.- 10.11. Guth-Smallwood Relationship.- 10.12. Crystallizing Elastomers.- 10.13. Model Elastomer-FillerSystems.- 10.14. Effect of Pressure on Reinforcement.- 10.15. Relative Importance of Reinforcement Modes.- 11. Filled Porous Systems.- 11.1. Introduction.- 11.2. Polymer-Impregnated Wood.- 11.3. Polymer-Impregnated Cements, Mortars, and Concretes.- 12. Particle-and Fiber-Reinforced Plastics.- 12.1. Particulate Phases.- 12.2. Fiber-Reinforced Composites.- 12.3. Matrix and Interface Behavior.- Appendix A. Typical Equations Used to Predict Moduli of Particulate Composites.- 13. A Peek into the Future.- 13.1. Classification Scheme for Composite Materials.- 13.2. Classification of Polymer Blends.- 13.3. Polymeric Eutectics.- 13.4. The Polymer Mixing Problem.- 13.5. Noise and Vibration Damping.- 13.6. Paints and Adhesives.- 13.7. An Old Art in a Changing World.- References.- Polymer Index.