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Fundamentals of adhesive bonding / Part I: |
History of adhesive bonding / P A Fay1: |
Early days / 1.1: |
The industrialisation of glue making / 1.2: |
The advent of synthetic polymers / 1.3: |
References / 1.4: |
What are adhesives and sealants and how do they work? / J Comyn2: |
Introduction / 2.1: |
Adhesives which harden by loss of solvent / 2.2: |
Adhesives which harden by loss of water / 2.3: |
Adhesives which harden by cooling / 2.4: |
Adhesives which harden by chemical reaction / 2.5: |
Adhesives which do not harden - pressure-sensitive adhesives / 2.6: |
Adhesion by physical adsorption / 2.7: |
Adhesion by chemical bonding / 2.8: |
The electrostatic theory of adhesion / 2.9: |
Mechanical interlocking / 2.10: |
Adhesion by interdiffusion / 2.11: |
Weak boundary layers / 2.12: |
Pressure-sensitive adhesion / 2.13: |
Future trends / 2.14: |
Sources of information / 2.15: |
Surfaces: how to assess / J F Watts2.16: |
Surface topography / 3.1: |
Surface thermodynamics / 3.3: |
Surface chemical analysis / 3.4: |
Concluding remarks / 3.5: |
Acknowledgements / 3.6: |
Surfaces: how to treat / D Brewis3.7: |
Pretreatments for metals / 4.1: |
Pretreatments for inorganic materials / 4.3: |
Pretreatments for plastics / 4.4: |
Pretreatments for elastomers / 4.5: |
Summary and future trends / 4.6: |
Literature / 4.7: |
Mechanical properties / 4.8: |
Stress analysis / A Crocombe5: |
A qualitative description of adhesive joint stresses / 5.1: |
Closed form, global stress analysis of adhesive joints / 5.3: |
Finite element analyses of adhesive joints / 5.4: |
Future developments / 5.5: |
Environmental (durability) effects / 5.6: |
Additives to reduce photo-oxidative degradation / 6.1: |
Behaviour of structural joints to metals in wet surroundings / 6.3: |
Water and adhesives / 6.4: |
Water and adhesive interfaces / 6.5: |
Other fluids / 6.6: |
Timber joints / 6.7: |
Further information / 6.8: |
Non-destructive testing / P Cawley6.10: |
Conventional ultrasonics / 7.1: |
Bond testers / 7.3: |
Rapid scanning methods / 7.4: |
Cohesive property measurement / 7.5: |
The interface problem and monitoring environmental degradation / 7.6: |
Conclusions / 7.7: |
Impact behaviour of adhesively bonded joints / C^Sato7.8: |
Experimental method for impact test of adhesives and adhesively bonded joints, and characteristics of adhesives under high rate loading / 8.1: |
Stress distribution and variation in adhesively bonded joints subject to impact load / 8.3: |
Actual joint design considering impact load / 8.4: |
Future trends and further information / 8.5: |
Conclusion / 8.6: |
Fracture mechanics of adhesive bonds / D A Dillard8.7: |
An energy criterion for failure / 9.1: |
The stress intensity factor approach / 9.3: |
The energy release rate approach / 9.4: |
Thermodynamic, intrinsic, and practical adhesion energy / 9.5: |
The effect of mode mixity / 9.6: |
Experimental evaluation of fracture energy / 9.7: |
Durability / 9.8: |
Designing with fracture mechanics / 9.9: |
Recent developments and current research areas / 9.10: |
Fatigue / I A Ashcroft9.11: |
The stress-life approach / 10.1: |
The fatigue crack growth (FCG) approach / 10.3: |
Vibration damping / M Hildebrand10.4: |
Damping in joints / 11.1: |
Prediction methods of vibration damping / 11.3: |
Experimental data on vibration damping of adhesively bonded joints / 11.4: |
Applications / 11.5: |
Joining similar and dissimilar materials / E J C Kellar12: |
Joint design / 12.1: |
Adhesive selection / 12.3: |
Surface pre-treatments / 12.4: |
Assembly issues and hybrid joining / 12.5: |
Bibliography / 12.6: |
Bonding of composites / P Davies13: |
The specific nature of composite materials / 13.1: |
Design of bonded composite assemblies / 13.3: |
Surface preparation / 13.4: |
Testing / 13.5: |
Influence of bondline thickness / 13.6: |
Examples of bonded composite structures / 13.7: |
Durability and long-term performance / 13.8: |
Building and construction - steel and aluminum / Ij J Van Straalen ; M J L Van Tooren13.9: |
Basic needs / 14.1: |
Adhesive characteristics required / 14.2: |
Strength and durability / 14.3: |
Common failures / 14.5: |
Inspection, testing and quality control / 14.6: |
Repair and strengthening / 14.7: |
Other industry-specific factors / 14.8: |
Building and construction - timber / E Serrano ; B Kallander14.9: |
Introduction and overview / 15.1: |
Basic needs and applications / 15.2: |
Wood characteristics / 15.3: |
Adhesive characteristics needed / 15.4: |
Surface preparation and bond formation / 15.5: |
Repair / 15.6: |
Examples of use / 15.10: |
Future trends and further reading / 15.11: |
Automobiles / K Dilger15.12: |
Repair and recycling / 16.1: |
Boats and marine / M Hentinen16.9: |
Shoe industry / J M Martin-Martinez17.1: |
Upper materials in shoes / 18.1: |
Sole materials in shoes / 18.3: |
Types of adhesive used in shoes / 18.4: |
Solvent-borne polyurethane adhesives / 18.5: |
Waterborne polyurethane adhesives / 18.6: |
Polychloroprene (neoprene) adhesives / 18.7: |
Waterborne polychloroprene adhesives / 18.8: |
Testing, quality control and durability / 18.9: |
Acknowledgments / 18.10: |
Electrical / J-A Petit ; V Nassiet18.12: |
Adhesive characteristics / 19.1: |
Strength and durability: reliability / 19.4: |
Aerospace / L J Hart-Smith19.6: |
Adhesive characteristics required for design and analysis / 20.1: |
Design of adhesively bonded joints / 20.3: |
Design features ensuring durability of bonded joints / 20.5: |
Load redistribution around flaws and porosity / 20.6: |
Effects of thermal mismatch between adherends on strength of bonded joints / 20.7: |
Bonded repairs / 20.8: |
Examples of use of adhesive bonding in aircraft structures / 20.10: |
Index / 20.12: |
Contributor contact details |
Fundamentals of adhesive bonding / Part I: |
History of adhesive bonding / P A Fay1: |