Rapid cure composites : materials, processing and manufacturing / Nishar Hameed [and three others], editors
- Bib ID:
- 10008524
- Format:
- Book
- Author:
- Hameed, Nishar
- Online Access:
- https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=3451993
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- Description:
-
- Cambridge, MA : Elsevier Ltd., [2023]
- ©2023
- 1 online resource ( 301 pages.) :
- ISBN:
-
- 9780323985352 (electronic bk)
- 0323985351
- Invalid ISBN:
- 9780323983372
- Series:
- Woodhead Publishing Series in Composites Science and Engineering Series
- Full contents:
-
- Front Cover
- Rapid Cure Composites
- Copyright Page
- Contents
- List of contributors
- About the editors
- Preface
- 1 Introduction to rapidly cured epoxy resins and composites
- 1.1 Introduction
- 1.2 Synthesis
- 1.3 Rapidly cured epoxy resin composites
- 1.4 Characterization
- 1.5 Modeling
- 1.6 Applications
- 1.7 Challenges
- References
- 2 Synthesis and advances in rapid curing resins
- 2.1 Introduction
- 2.2 Synthesis of rapid curing resins
- 2.3 Advancement in rapid curing process
- 2.3.1 Latent heat curing
- 2.3.2 Microwave curing
- 2.3.3 Ultraviolet-curing
- 2.3.4 Photocuring
- 2.3.5 Gamma rays and electrons beam curing
- 2.4 Conclusion
- References
- 3 Important curing agents used for rapid curing: a systematic review
- 3.1 Introduction
- 3.2 Systematic review procedure
- 3.3 Results of compiled data
- 3.4 Discussion
- 3.5 Future perspectives
- Acknowledgments
- References
- 4 Fabrication methods of rapid cured composites
- 4.1 Introduction
- 4.2 Thermal curing methods
- 4.2.1 Qure curing
- 4.2.1.1 Qure curing process
- 4.2.1.2 Qure advantages over traditional curing methods
- 4.2.2 Compression molding
- 4.2.2.1 Compression molding process
- 4.2.2.2 Advantages of compression molding
- 4.2.3 Direct electric curing
- 4.2.3.1 Direct electric curing process
- 4.2.3.2 Advantages of direct electric curing
- 4.2.4 Induction heating
- 4.2.4.1 Induction heating curing process
- 4.2.4.2 Advantages of induction heating curing process
- 4.3 Radiation curing methods
- 4.3.1 Ultraviolet curing
- 4.3.1.1 Ultraviolet curing process
- 4.3.1.2 Advantages of ultraviolet curing
- 4.3.2 Electron beam curing
- 4.3.2.1 Electron beam curing process
- 4.3.2.2 Advantages of electron beam curing
- 4.4 Dual curing method
- 4.5 Summary
- References.
- 5 Monitoring techniques to measure the rapid curing of polymer composites
- 5.1 Introduction
- 5.2 Sensor-based methods
- 5.2.1 Fiber optic sensor
- 5.2.2 Distributed optical sensors
- 5.2.3 Capacitive array sensors
- 5.2.4 Nanomaterial-based sensors system
- 5.2.5 Mechanical impedance analysis
- 5.3 Spectroscopic techniques
- 5.3.1 Raman spectroscopy
- 5.3.2 Differential scanning calorimetry
- 5.3.3 Electrochemical impedance spectroscopy
- 5.3.4 Fluorescence spectroscopy
- 5.4 Other methods
- 5.4.1 Dielectrometry
- 5.4.2 Ultrasonic dynamic mechanical analysis
- 5.4.3 Infrared thermography
- 5.5 Conclusion
- References
- 6 Joining of composites using rapid curing resin systems
- 6.1 Introduction
- 6.2 Composites
- 6.3 Joining of composites
- 6.3.1 Mechanical joining of composites
- 6.3.2 Wielding joining of composites
- 6.3.3 Adhesive joining of composites
- 6.4 Adhesives for joining composites
- 6.4.1 Epoxies
- 6.4.2 Acrylics
- 6.4.3 Urethanes
- 6.4.4 Cyanoacrylates
- 6.4.5 Anaerobic adhesives
- 6.4.6 Ultraviolet curable resins
- 6.4.7 Silicones
- 6.5 Rapid adhesive bonding of composites by induction curing
- 6.6 Rapid adhesive bonding of composites by microwave curing
- 6.7 Rapid adhesive bonding of composites by ultraviolet-irradiation
- 6.8 Summary
- References
- 7 Self-healing composites: healing using rapid cure resin systems
- 7.1 Classification of self-healing systems
- 7.2 Extrinsic self-healing
- 7.2.1 Capsule-based self-healing system
- 7.2.1.1 Ring-opening metathesis polymerization
- 7.2.1.2 Polycondensation
- 7.2.1.3 Epoxy systems
- 7.2.2 Hollow fiber-based self-healing system
- 7.2.3 Vascular self-healing system
- 7.3 Intrinsic self-healing
- 7.4 Activation and measurement of the self-healing process
- 7.5 Self-healing materials and advanced applications
- 7.5.1 Self-healing coatings.
- 7.5.2 Self-healing in protective applications
- 7.5.3 Vehicles, aircraft, and aerospace
- 7.5.4 Engines
- 7.5.5 Defense applications
- 7.5.6 Sports industry
- 7.6 Summary
- References
- 8 Crosslinking problems during rapid curing of adhesives and composites
- 8.1 Introduction
- 8.2 Rapid-curing adhesives and composites overview
- 8.2.1 Types of rapid-curing adhesives
- 8.2.2 Crosslinking in rapid-cure adhesives
- 8.2.3 Composites in industry
- 8.2.4 Using different rapid-curing adhesives
- 8.2.5 Type 1 adhesives: two-component systems
- 8.2.6 Type 2 adhesives: one-component heat-cure
- 8.2.7 Type 3 adhesives: moisture-cure
- 8.2.8 Type 4 adhesives: light-cure
- 8.2.9 Type 5 adhesives: dual-cure systems
- 8.2.10 Final notes
- 8.3 Commercially available rapid curing epoxies, practical examples
- 8.4 Composite-related considerations when using a rapid-cure adhesive
- 8.4.1 Adhesive formulation considerations
- 8.4.2 Surface preparation
- 8.4.3 Suboptimal mixing conditions in multicomponent systems
- 8.4.4 Exothermic considerations
- 8.5 Advances in characterizing rapid-cure systems
- 8.5.1 Dynamic mechanical analysis
- 8.5.2 Tensile testing
- 8.5.3 Adhesion/bond strength
- 8.5.4 Thermal analysis
- 8.5.5 Differential scanning calorimetry
- 8.6 Conclusions
- References
- Further reading
- 9 Recent advances in characterization of rapid cured composite materials
- 9.1 Introduction
- 9.2 Techniques to characterize rapid-curing composites
- 9.2.1 Rheological analysis
- 9.2.2 Differential scanning calorimetric analysis
- 9.2.3 Dynamic mechanical thermal analysis
- 9.2.4 Thermal bending test
- 9.2.5 Thermal expansion tests
- 9.2.6 Mechanical tensile tests
- 9.2.7 Mechanical flexural tests
- 9.2.8 Surface roughness
- 9.2.9 Optical microscopy
- 9.2.10 Fiber volume fraction.
- 9.2.11 Field emission scanning electron microscopy
- 9.2.12 Spectroscopic analysis
- 9.2.13 Surface porosity
- 9.3 Recent research in characterization of rapid cured composites
- 9.3.1 Dynamic scanning calorimetry
- 9.3.2 Dielectric spectroscopy
- 9.3.3 Dynamic mechanical analysis
- 9.3.4 Mechanical strength
- 9.3.5 Surface roughness
- 9.3.6 Raman spectroscopic analysis
- 9.3.7 Residual stress analysis
- 9.3.8 Spring-in analysis
- 9.3.9 Nuclear magnetic resonance spectroscopy
- 9.4 Outline
- 9.5 Conclusions
- References
- 10 Rapid cure composites in electronics industry
- 10.1 Introduction
- 10.1.1 Why the rapid cure matters in electrics industry
- 10.1.2 Cautions and technical challenges in designing cure strategies
- 10.2 The resins used in rapid cure packaging materials and their curing mechanisms
- 10.2.1 Epoxy
- 10.2.2 Silicone
- 10.2.3 Acrylic
- 10.2.4 Cyanoacrylates
- 10.3 The electronic packaging products of highly requires rapid cure
- 10.3.1 Surface mount adhesive
- 10.3.1.1 Basic concept and application
- 10.3.1.2 Process
- 10.3.1.3 Materials composition and properties
- 10.3.1.4 Rapid cure type products
- 10.3.2 Dicing die attach film
- 10.3.2.1 Basic concept and application
- 10.3.2.2 Process
- 10.3.2.3 Materials composition and properties
- 10.3.2.4 Rapid cure type products
- 10.3.3 Underfill
- 10.3.3.1 Basic concept and application
- 10.3.3.2 Process
- 10.3.3.3 Materials composition and properties
- 10.3.3.4 Rapid cure type products
- 10.3.4 Electrically conductive adhesives
- 10.3.4.1 Basic concept and application
- 10.3.4.2 Process
- 10.3.4.3 Materials composition and properties
- 10.3.4.4 Rapid cure type products
- 10.3.5 Encapsulant materials: glob-top (dam-and-fill)
- 10.3.5.1 Basic concept and application
- 10.3.5.2 Process
- 10.3.5.3 Material composition and properties.
- 10.3.5.4 Rapid cure type products
- 10.4 Trend shifting in packaging technology and strategies
- 10.4.1 Material regulation according to RoHS (lead, halogen, hazardous materials)
- 10.4.2 New formulation conformed to an advanced packaging design
- 10.5 Summary
- References
- 11 Rapid cure composites used in aerospace industry
- 11.1 Introduction
- 11.2 Out-of-autoclave prepregs
- 11.3 Oven or vacuum-bag-only prepregs
- 11.4 Liquid heating
- 11.4.1 Liquid heated tools
- 11.4.2 Quickstep
- 11.5 Process evaluation
- 11.5.1 Techno-economic attributes
- 11.6 Present challenges
- 11.6.1 Material and process sensitivity
- 11.6.2 Cost and environmental issues
- 11.7 Future trends
- 11.8 Conclusion
- References
- 12 Rapid cure composites used in spray and paints industry
- 12.1 Introduction
- 12.2 Paint composition and spraying process
- 12.2.1 Composition of paint
- 12.2.2 Spraying process
- 12.3 Rapid cure composites used in spray and paints industry
- 12.3.1 Low-temperature curing powder coating
- 12.3.1.1 Powder coating base resin composition
- 12.3.1.2 TGIC cured powder coating
- 12.3.1.3 Low-temperature curing powder coatings for industrial use
- 12.3.2 Fast ultraviolet curing waterborne coatings
- 12.3.2.1 Waterborne polyurethane acrylate
- 12.3.2.2 Photoinitiator
- 12.3.2.3 Application and research progress
- 12.4 Ultraviolet curing optical fiber coatings
- 12.4.1 Ultraviolet curing technology
- 12.4.2 Ultraviolet curing optical fiber coatings oligomer
- 12.4.3 Research progress of ultraviolet curing optical fiber coatings
- 12.5 Preparation and application of fast-curing coatings
- 12.5.1 Rapid curing composites for automotive spraying
- 12.5.2 Hydrogel fast-cure coatings
- 12.5.3 Fast-curing composites for industrial use
- 12.5.4 Plant-based ultraviolet fast-curing composites.
- Notes:
-
- 12.5.5 Fast-curing marine antifouling coatings.
- Includes bibliographical references and index.
- Description based on print version record
- Reproduction:
- Electronic reproduction. Ipswich, MA Available via World Wide Web.
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- Publication date:
- 2023
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