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Fusion Bonding of Polymer Composites (Engineering Materials and Processes) - Brossura

 
9781447110873: Fusion Bonding of Polymer Composites (Engineering Materials and Processes)
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Fusion bonding is one of the three methods available for joining composite and dissimilar materials. While the other two, mechanical fastening and adhesion bonding, have been the subject of wide coverage both in textbooks and monographs, fusion bonding is covered here substantially for the first time. Fusion bonding offers a number of advantages over traditional joining techniques and it is anticipated that its use will increase dramatically in the future because of the rise in the use of thermoplastic matrix composites and the growing necessity for recyclability of engineering assemblies. Fusion Bonding of Polymer Composites provides an in-depth understanding of the physical mechanisms involved in the fusion bonding process, covering such topics as: - heat transfer in fusion bonding; - modelling thermal degradation; - consolidation mechanisms; - crystallisation kinetics; - processing-microstructure-property relationship; - full-scale fusion bonding; - fusion bonding of thermosetting composite/thermoplastic composite and metal/thermoplastic joints. The book focuses on one practical case study using the resistance welding process. This example exposes the reader to the development of processing windows for a novel manufacturing process including the use of experimental test programmes and modelling strategies.

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Recensione:

From the reviews:

"This book is the first volume in the Engineering Materials and Processes series ... . the book would be an ideal reference for anyone wishing to fusion bond advanced polymer composites." (John Summerscales, Materials World, Vol. 11 (9), 2003)

Contenuti:
1. Introduction.- 1.1 Advanced Thermoplastic Matrix Composites (TMPCs).- 1.2 Joining Technology for Composite Materials.- 1.3 References.- 2. The State of the Art in Fusion Bonding of Polymer Composites.- 2.1 Introduction.- 2.2 Traditional Technologies.- 2.2.1 Mechanical Fastening.- 2.2.1.1 Bolted/Riveted Joints.- 2.2.1.2 Integral Fit Joint Technology.- 2.2.2 Adhesive Bonding.- 2.2.3 Solvent Bonding.- 2.3 Fusion Bonding Technology.- 2.3.1 Introduction.- 2.3.2 Fusion Bonding Techniques.- 2.3.2.1 Bulk Heating.- 2.3.2.2 Fractional Heating.- 2.3.2.3 Electromagnetic Heating.- 2.3.2.4 Two-stage Techniques.- 2.4 Joining of Dissimilar Materials.- 2.4.1 Introduction.- 2.4.2 Metal Substrates.- 2.4.2.1 Surface Preparation.- 2.4.2.2 Fusion Bonding of TPMCs and Metal Substrates.- 2.4.3 TSMC Substrates.- 2.4.3.1 TP Hybrid Interlayer.- 2.4.3.2 TP Film Co-cure.- 2.5 Comparative Assessment.- 2.5.1 Joint Performance.- 2.5.1.1 Strength.- 2.5.1.2 Durability.- 2.5.2 Process Performance.- 2.5.2.1 Cost and Processing Time.- 2.5.2.2 Quality.- 2.5.2.3 Suitability to Automation/Production Environment.- 2.5.2.4 Minimal Surface Preparation.- 2.5.3 Process Adaptability.- 2.5.3.1 Flexibility.- 2.5.3.2 Large-scale Joining.- 2.5.3.3 Portability/Application to Repair.- 2.5.4 Environmental Aspects.- 2.5.4.1 Reprocessing/Recycling.- 2.5.4.2 Environmental Friendliness.- 2.6 Concluding Remarks.- 2.7 References.- 3. Heat Transfer in Fusion Bonding.- 3.1 Introduction.- 3.2 Heat Generation.- 3.2.1 Ultrasonic Welding.- 3.2.2 Induction Welding.- 3.2.3 Resistance Welding.- 3.2.3.1 Joule Heating.- 3.2.3.2 IRW.- 3.3 Heat Transfer.- 3.3.1 Modelling the Geometry through the FEM.- 3.3.2 Heat Transfer Theory.- 3.3.3 Modelling of Interfaces Between Plies.- 3.3.4 Non-uniform Heating.- 3.3.5 Improvement of Heat Transfer in Penetration Area.- 3.4 Modelling Thermal Degradation.- 3.4.1 Approximation of Thermal Degradation.- 3.4.2 Thermal Degradation Kinetic Model.- 3.5 Aspects Influencing Heat Transfer in Resistance Welding.- 3.5.1 Material Properties.- 3.5.2 Basic Results for Heat Transfer.- 3.5.3 Effect of Latent Heat.- 3.5.4 Effect of Rough Contact Surfaces.- 3.5.5 Non-uniform Heat Generation in Resistance Welding.- 3.6 Simulations of Resistance Welding.- 3.6.1 Temperature Uniformity in Welding Interface.- 3.6.2 Processing Windows.- 3.6.3 Heat Transfer to Laminate.- 3.6.4 IRW.- 3.6.4.1 In-air HE.- 3.6.4.2 Embedded HE.- 3.7 Concluding Remarks.- 3.8 References.- 4. Consolidation Mechanisms.- 4.1 Introduction.- 4.2 Basic Mechanisms for Fusion Bonding.- 4.2.1 Consolidation Mechanisms.- 4.2.2 Intimate Contact Model.- 4.2.3 Autohesion Model.- 4.2.4 Non-isothermal Bonding Process.- 4.3 Simulations of Consolidation for Resistance Welding.- 4.3.1 Material Properties.- 4.3.2 Effect of Surface Roughness on Intimate Contact.- 4.3.3 Processing Windows.- 4.3.4 Effect of Consolidation Pressure on Intimate Contact.- 4.3.5 IRW.- 4.3.5.1 Simulations of Consolidation.- 4.3.5.2 Comparison with Experimental Data.- 4.4 De-consolidation Phenomenon.- 4.5 Concluding Remarks.- 4.6 References.- 5. Crystallisation Kinetics.- 5.1 Introduction.- 5.2 Description of Crystallisation Kinetics and Crystal Melting Kinetics Models.- 5.2.1 Ozawa's Crystallisation Kinetics Model.- 5.2.2 Velisaris and Seferis' Crystallisation Kinetics Model.- 5.2.3 The Choe and Lee Crystallisation Kinetics Model.- 5.2.4 Icenogle's Crystallisation Kinetics Model.- 5.2.5 The Maffezzoli et al. Crystal Melting Kinetics Model.- 5.3 A Transient Crystallinity Model for Resistance Welding.- 5.4 Simulations of the Crystallinity Level.- 5.4.1 Crystallisation Kinetics.- 5.4.2 Crystallisation Kinetics Coupled with Crystal Melting Kinetics....- 5.4.3 Influence of Environmental Temperature.- 5.4.4 Influence of Latent Heat of Crystallisation and Crystal Melting....- 5.4.5 Evaluation of the CF-PP/PP Welding Configuration.- 5.5 Concluding Remarks.- 5.6 References.- 6. Processing-Microstructure-Property Relationship.- 6.1 Introduction.- 6.2 Experimental Techniques.- 6.2.1 Laminates.- 6.2.2 HEs.- 6.2.3 Resistance Welding.- 6.2.4 Temperature Measurements.- 6.2.5 Modelling.- 6.3 Assessing Parent Materials Properties.- 6.4 Heat Generation and Heat Transfer.- 6.4.1 Resistance of HE.- 6.4.1.1 Measurement of Resistance.- 6.4.1.2 Dependency of Resistance of HE on Temperature.- 6.4.1.3 Influence of Clamping Force on Electrical Contact Efficiency.- 6.4.2 Determination of Power Density.- 6.4.3 Efficiency of CF HEs.- 6.4.4 Temperature Measurements in LS Coupons.- 6.4.5 Comparison with FEM Predictions.- 6.5 Determination of Processing Windows.- 6.5.1 Optimised Welding Times.- 6.5.2 Welding Curves and Thickness Reduction.- 6.5.3 Welding Pressure and Consolidation Quality.- 6.5.4 Failure Mechanisms.- 6.5.5 Processing Window.- 6.5.6 Fabric HEs.- 6.6 Concluding Remarks.- 6.7 References.- 7. Full-scale Fusion Bonding.- 7.1 Introduction.- 7.2 Strategies for Transition to Large-scale Fusion Bonding.- 7.2.1 Ultrasonic Welding.- 7.2.2 Induction Welding.- 7.2.3 Resistance Welding.- 7.3 Large-scale Resistance Welding.- 7.3.1 Current Leakage to Laminate.- 7.3.2 Heat Transfer in Welding Stack.- 7.3.3 Large Width LS Coupons.- 7.3.4 DCB Coupons.- 7.4 Concluding Remarks.- 7.5 References.- 8. Fusion Bonding of TSMC/TPMC Joints.- 8.1 Introduction.- 8.2 Experimental.- 8.3 TP Hybrid Interlayer.- 8.4 Modelling.- 8.5 Characterisation of CF-Epoxy/CF-PEI Joints.- 8.5.1 Consolidation and Microstructure.- 8.5.2 Failure Mechanisms.- 8.5.3 Simulated Results.- 8.5.4 Optimisation of the Processing Windows.- 8.6 Concluding Remarks.- 8.7 References.- 9. Fusion Bonding of Metal/TPMC Joints.- 9.1 Introduction.- 9.2 Experimental.- 9.3 Simulation of Resistance Welding of Aluminium/CF-PEI LS Joints.- 9.3.1 FEM.- 9.3.2 Simulation of Temperature and Welding Times.- 9.4 Characterisation of Aluminium/CF-PEI LS Joints.- 9.4.1 Consolidation and Microstructure.- 9.4.2 Failure Mechanisms.- 9.4.3 Annealing of Aluminium Substrates.- 9.4.4 Optimisation of the Processing Window.- 9.5 Concluding Remarks.- 9.6 References.- Appendix A. Material Properties for Simulations.- Appendix B. Parameters for Crystallisation and Crystal Melting Kinetics Models.- Appendix C. Thermal Degradation Kinetic Model.- C.I Thermal Degradation Model for CF-epoxy Composite.- C.2 Thermal Degradation Model for PEI.- C.3 Thermal Degradation Model for PEEK.- C.4 References.

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  • EditoreSpringer
  • Data di pubblicazione2012
  • ISBN 10 1447110870
  • ISBN 13 9781447110873
  • RilegaturaCopertina flessibile
  • Numero di pagine296

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9781852334291: Fusion Bonding of Polymer Composites: From Basic Mechanisms to Process Optimization

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ISBN 10:  1852334290 ISBN 13:  9781852334291
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Descrizione libro Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - Fusion bonding is one of the three methods available for joining composite and dissimilar materials. While the other two, mechanical fastening and adhesion bonding, have been the subject of wide coverage both in textbooks and monographs, fusion bonding is covered here substantially for the first time. Fusion bonding offers a number of advantages over traditional joining techniques and it is anticipated that its use will increase dramatically in the future because of the rise in the use of thermoplastic matrix composites and the growing necessity for recyclability of engineering assemblies. Fusion Bonding of Polymer Composites provides an in-depth understanding of the physical mechanisms involved in the fusion bonding process, covering such topics as:- heat transfer in fusion bonding;- modelling thermal degradation;- consolidation mechanisms;- crystallisation kinetics;- processing-microstructure-property relationship;- full-scale fusion bonding;- fusion bonding of thermosetting composite/thermoplastic composite and metal/thermoplastic joints.The book focuses on one practical case study using the resistance welding process. This example exposes the reader to the development of processing windows for a novel manufacturing process including the use of experimental test programmes and modelling strategies. Codice articolo 9781447110873

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Descrizione libro Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Fusion bonding is one of the three methods available for joining composite and dissimilar materials. While the other two, mechanical fastening and adhesion bonding, have been the subject of wide coverage both in textbooks and monographs, fusion bonding is c. Codice articolo 4183971

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Descrizione libro Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Fusion bonding is one of the three methods available for joining composite and dissimilar materials. While the other two, mechanical fastening and adhesion bonding, have been the subject of wide coverage both in textbooks and monographs, fusion bonding is covered here substantially for the first time. Fusion bonding offers a number of advantages over traditional joining techniques and it is anticipated that its use will increase dramatically in the future because of the rise in the use of thermoplastic matrix composites and the growing necessity for recyclability of engineering assemblies. Fusion Bonding of Polymer Composites provides an in-depth understanding of the physical mechanisms involved in the fusion bonding process, covering such topics as:- heat transfer in fusion bonding;- modelling thermal degradation;- consolidation mechanisms;- crystallisation kinetics;- processing-microstructure-property relationship;- full-scale fusion bonding;- fusion bonding of thermosetting composite/thermoplastic composite and metal/thermoplastic joints.The book focuses on one practical case study using the resistance welding process. This example exposes the reader to the development of processing windows for a novel manufacturing process including the use of experimental test programmes and modelling strategies. 296 pp. Englisch. Codice articolo 9781447110873

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