Extrinsic and Intrinsic Approaches to Self Healing Polymers and - Polymer Composite

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Explore the cutting-edge in self-healing polymers and composites
 
In Extrinsic and Intrinsic Approaches to Self-Healing Polymers and Polymer Composites, a pair of distinguished materials scientists delivers an insightful and up-to-date exploration of the fundamentals, theory, design, fabrication, characterization, and application of self-healing polymers and polymer composites. The book discusses how to prepare self-healing polymeric materials, how to increase the speed of crack repair, high temperature applications, and how to broaden the spectrum of healing agent species.
 
The authors emphasize the integration of existing techniques with novel synthetic approaches for target-oriented materials design and fabrication. They provide a comprehensive view of this emerging field, allowing new researchers to gather a firm understanding of the framework for creating new materials or applications. Additionally, the book includes:
* A thorough introduction to the field of self-healing polymers and polymer composites, including the advances made by various laboratories and the challenges, trends, and future directions that characterize modern research in the area
* Comprehensive explorations of the self-healing strategies proposed by the authors, including addition polymerization, systems-based microcapsules and plastic tubes, and more
* Practical discussions of the application of reversible S-S bonds in self-healing polymers
* In-depth examinations of intrinsic self-healing via reversible C-ON bonds
 
Perfect for polymer and materials scientists, chemists, and engineers, Extrinsic and Intrinsic Approaches to Self-Healing Polymers and Polymer Composites will also earn a place in the libraries of professionals working in the polymer, coatings, paints, medical, defense, and pharmaceutical industries.

List of contents

Preface
 
Chapter 1 Basics of self-healing - state of the art
 
1.1 Background
 
1.1.1 Adhesive bonding for healing thermosetting materials
 
1.1.2 Fusion bonding for healing thermoplastic materials
 
1.1.3 Bioinspired self-healing
 
1.2 Intrinsic self-healing
 
1.2.1 Self-healing based on physical interactions
 
1.2.2 Self-healing based on chemical interactions
 
1.2.3 Self-healing based on supramolecular interactions
 
1.3 Extrinsic self-healing
 
1.3.1 Self-healing in terms of healant loaded pipelines
 
1.3.2 Self-healing in terms of healant loaded microcapsules
 
1.4 Insights for future work
 
1.5 References
 
Chapter 2 Extrinsic self-healing via addition polymerization
 
2.1 Design and selection of healing system
 
2.2 Microencapsulation of mercaptan and epoxy by in-situ polymerization
 
2.2.1 Microencapsulation of mercaptan
 
2.2.2 Microencapsulation of epoxy
 
2.3 Filling polymeric tubes with mercaptan and epoxy
 
2.4 Characterization of self-healing functionality
 
2.4.1 Self-healing epoxy materials with embedded dual encapsulated healant - healing of crack due to monotonic fracture
 
2.4.2 Factors related to performance improvement
 
2.4.3 Self-healing epoxy materials with embedded dual encapsulated healant - healing of fatigue crack
 
2.4.4 Self-healing epoxy/glass fabric composites with embedded dual encapsulated healant - healing of impact damage
 
2.4.5 Self-healing epoxy/glass fabric composites with self-pressurized healing system
 
2.5 Concluding remarks
 
2.6 References
 
Chapter 3 Extrinsic self-healing via cationic polymerization
 
3.1 Thermosetting
 
3.1.1 Microencapsulation of epoxy by UV irradiation-induced interfacial copolymerization
 
3.1.2 Encapsulation of boron-containing curing agent
 
3.1.2.1 Loading boron-containing curing agent onto porous media
 
3.1.2.2 Microencapsulation of boron-containing curing agent via hollow capsules approach
 
3.1.3 Characterization of self-healing functionality
 
3.1.3.1 Self-healing epoxy materials with embedded epoxy-loaded microcapsules and (C2H5)2O*BF3-loaded sisal
 
3.1.3.2 Self-healing epoxy materials with embedded dual encapsulated healant
 
3.1.4 Preparation of silica walled microcapsules containing SbF5*HOC2H5/HOC2H5
 
3.1.5 Self-healing epoxy materials with embedded epoxy-loaded microcapsules and SbF5*HOC2H5/HOC2H5-loaded silica capsules
 
3.1.6 Preparation of silica walled microcapsules containing TfOH
 
3.1.7 Self-healing epoxy materials with embedded epoxy-loaded microcapsules and TfOH-loaded silica capsules
 
3.2 Thermoplastics
 
3.2.1 Preparation of IBH/GMA-loaded microcapsules
 
3.2.2 Self-healing PS composites filled with IBH/GMA-loaded microcapsules and NaBH4 particles
 
3.3 Concluding remarks
 
3.4 References
 
Chapter 4 Extrinsic self-healing via anionic polymerization
 
4.1 Preparation of epoxy-loaded microcapsules and latent hardener
 
4.1.1 Microencapsulation of epoxy by in-situ condensation
 
4.1.2 Preparation of imidazole latent hardener
 
4.2 Self-healing epoxy materials with embedded epoxy-loaded microcapsules and latent hardener
 
4.3 Self-healing epoxy/woven glass fabric composites with embedded epoxy-loaded microcapsules and latent hardener - healing of interlaminar failure
 
4.4 Durability of healing ability
 
4.5 Self-healing epoxy/woven glass fabric composites with embedded epoxy-loaded microcapsules and latent hardener - healing of impact damage
 

About the author

Ming Qiu Zhang, PhD, is Director of and Professor in the Materials Science Institute at Sun Yat-sen University. He is co-author of the first edition of Self-Healing Polymers and Polymer Composites.
Min Zhi Rong, PhD, is Professor in the Materials Science Institute at Sun Yat-sen University. He is co-author of the first edition of Self-Healing Polymers and Polymer Composites and has over 25 years' experience in the field of polymer science.

Summary

Explore the cutting-edge in self-healing polymers and composites

In Extrinsic and Intrinsic Approaches to Self-Healing Polymers and Polymer Composites, a pair of distinguished materials scientists delivers an insightful and up-to-date exploration of the fundamentals, theory, design, fabrication, characterization, and application of self-healing polymers and polymer composites. The book discusses how to prepare self-healing polymeric materials, how to increase the speed of crack repair, high temperature applications, and how to broaden the spectrum of healing agent species.

The authors emphasize the integration of existing techniques with novel synthetic approaches for target-oriented materials design and fabrication. They provide a comprehensive view of this emerging field, allowing new researchers to gather a firm understanding of the framework for creating new materials or applications. Additionally, the book includes:
* A thorough introduction to the field of self-healing polymers and polymer composites, including the advances made by various laboratories and the challenges, trends, and future directions that characterize modern research in the area
* Comprehensive explorations of the self-healing strategies proposed by the authors, including addition polymerization, systems-based microcapsules and plastic tubes, and more
* Practical discussions of the application of reversible S-S bonds in self-healing polymers
* In-depth examinations of intrinsic self-healing via reversible C-ON bonds

Perfect for polymer and materials scientists, chemists, and engineers, Extrinsic and Intrinsic Approaches to Self-Healing Polymers and Polymer Composites will also earn a place in the libraries of professionals working in the polymer, coatings, paints, medical, defense, and pharmaceutical industries.