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Preface | ||
Acknowledgments | ||
1. | Interfacial Thermodynamics | 1 |
1.1 | Formulation of Interfacial Thermodynamics | 1 |
1.2 | Work of Adhesion and Work of Cohesion | 4 |
1.3 | Interfacial and Hydrostatic Equilibrium | 5 |
1.4 | Effect of Curvature on Vapor Pressure and Surface Tension | 7 |
1.5 | Spreading Pressure and Spreading Coefficient | 8 |
1.6 | Contact Angle Equilibrium: Young Equation | 11 |
1.7 | Contact Angle Hysteresis | 15 |
References | 26 | |
2. | Molecular Interpretations | 29 |
2.1 | Microscopic Theories of van der Waals Forces | 30 |
2.2 | Additivity and Fractional Contributions of Various types of Molecular Forces | 40 |
2.3 | Approximations for Unlike Molecules | 42 |
2.4 | Lennard-Jones Potential Energy Function | 44 |
2.5 | Attraction Between Macroscopic Bodies | 47 |
2.6 | Macroscopic Theory of van der Waals Forces: The Lifshitz Theory | 54 |
References | 62 | |
3. | Interfacial and Surface Tensions of Polymer Melts and Liquids | 67 |
3.1 | Surface Tensions of Polymer Melts and Liquids | 67 |
3.2 | Interfacial Tensions Between Polymers | 96 |
References | 129 | |
4. | Contact Angles of Liquids on Solid Polymers | 133 |
4.1 | Equilibrium Spreading Pressure | 133 |
4.2 | Spreading Coefficient | 139 |
4.3 | Effect of Temperature on Contact Angle | 139 |
4.4 | Effect of Primary and Secondary Transitions | 147 |
4.5 | Contact Angle and Heat of Wetting | 148 |
4.6 | Polarity of Liquids | 148 |
4.7 | Prediction of Contact Angles | 152 |
4.8 | Effect of Solute Adsorption on Contact Angle | 152 |
4.9 | Tabulation of Equilibrium Contact Angle | 157 |
4.10 | Distortion of Liquid Surfaces: Marangoni Effect | 161 |
4.11 | Spreading of Partially Submerged Drops | 164 |
References | 165 | |
5. | Surface Tension and Polarity of Solid Polymers | 169 |
5.1 | Determination of Surface Tension and Polarity | 169 |
5.2 | Surface Tension and Polarity of Organic Pigments | 198 |
5.3 | Constitutive Effect on Surface Tension | 201 |
5.4 | Morphological Effect on Surface Tension | 201 |
5.5 | Effects of Additives, Polymer Blends, Copolymers, Conformation, and Tacticity on Surface Tension | 209 |
References | 211 | |
6. | Wetting of High-Energy Surfaces | 215 |
6.1 | Introduction | 215 |
6.2 | Spreading on High-Energy Surfaces | 219 |
6.3 | Effect of Water and Organic Contaminations | 222 |
6.4 | Kinetics of Surface-Energy Variation | 229 |
References | 231 | |
7. | Dynamic Contact Angles and Wetting Kinetics | 235 |
7.1 | Introduction | 235 |
7.2 | Kinetics of Spontaneous Motion | 236 |
7.3 | Kinetics of Forced Motion | 247 |
References | 254 | |
8. | Experimental Methods for Contact Angles and Interfacial Tensions | 257 |
8.1 | Measurements of Contact Angles | 257 |
8.2 | Measurements of Interfacial and Surface Tensions of Polymer Liquids and Melts | 266 |
References | 274 | |
9. | Modifications of Polymer Surfaces: Mechanisms of Wettability and Bondability Improvements | 279 |
9.1 | Chemical Treatments | 280 |
9.2 | Flame and Thermal Treatments | 296 |
9.3 | Plasma Treatments | 298 |
9.4 | Photochemical Treatments | 322 |
9.5 | Crystalline Modifications of Polymer Surfaces | 323 |
9.6 | Miscellaneous Modifications | 327 |
References | 328 | |
10. | Adhesion: Basic Concept and Locus of Failure | 337 |
10.1 | Definitions | 337 |
10.2 | Basic Concept of Adhesive Bond Strength | 338 |
10.3 | Locus of Failure | 344 |
References | 354 | |
11. | Formation of Adhesive Bond | 359 |
11.1 | Elementary Processes in Adhesive Bond Formation | 359 |
11.2 | Wetting and Adhesion | 360 |
11.3 | Diffusion and Adhesion | 380 |
11.4 | Chemical Adhesion | 406 |
11.5 | Mechanical Adhesion | 434 |
References | ||
12. | Weak Boundary Layers | 449 |
12.1 | Weak-Boundary-Layer Theory | 449 |
12.2 | Examples of Weak Boundary Layers | 450 |
12.3 | Critique of Weak-Boundary-Layer Theory | 456 |
References | 460 | |
13. | Effect of Internal Stress on Bond Strength | 465 |
13.1 | Shrinkage of a Coating Adhering to a Substrate | 467 |
13.2 | Free Thickness Contraction in a Butt Joint | 470 |
13.3 | No Thickness Contraction in a Sandwich Structure | 472 |
13.4 | No Thickness Contraction in a Long, Narrow Adhesive Layer in an Annulus | 472 |
References | 473 | |
14. | Fracture of Adhesive Bond | 475 |
Part I. | Fundamentals of Fracture Mechanics | 475 |
14.1 | Linear Elastic Fracture Mechanics | 476 |
14.2 | Local Plastic Flow | 484 |
14.3 | Generalization of Flaw Theory to Viscoelastic Materials: Rivlin and Thomas Theory | 486 |
14.4 | Properties of Fracture Energy | 488 |
Part II. | Analysis and Testing of Adhesive Bonds | 497 |
14.5 | Tensile Tests (Butt Joints) | 497 |
14.6 | Shear Tests (Lap Joints) | 510 |
14.7 | Peel Tests (Peel Joints) | 530 |
14.8 | Cantilever Beam Tests | 555 |
14.9 | Other Fracture Energy Tests | 560 |
References | 563 | |
15. | Creep, Fatigue, and Environmental Effects | 571 |
Part I. | Creep and Fatigue of Adhesive Joints | 571 |
15.1 | Creep Fracture | 572 |
15.2 | Fatigue Fracture | 579 |
Part II. | Environmental Effects | 586 |
15.3 | Spontaneous Separation | 589 |
15.4 | Effect of Interfacial Chemical Bonds | 593 |
15.5 | Stress Corrosion Cracking and Fatigue in Wet Environment | 603 |
References | 609 | |
Appendix I | Calculation of Surface Tension and Its Nonpolar and Polar Components from Contact Angles by the Harmonic-Mean and the Geometric-Mean Methods | 613 |
Appendix II | Unit Conversion Tables | 619 |
Index | 621 |
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Add Polymer Interface and Adhesion, Polymer Interface and Adhesion provides the critical basis for further advancement in this field. Combining the principles of interfacial science, rheology, stress analysis, and fracture mechanics, the book teaches a new approach to the analysis of long s, Polymer Interface and Adhesion to your collection on WonderClub |