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008 110324s2011 njuaf fs 001 0 eng|d
020 9781118082874|q(e-book)
040 StDuBDS|cStDuBDS|dStDuBDSZ|dUkPrAHLS
050 0 TA455.P58|bZ43 2011
082 04 547.7|223
100 1 Zhang, Ming Qiu.
245 10 Self-healing polymers and polymer composites /|cMing Qiu
Zhang, Min Zhi Rong.
260 Hoboken, N.J. :|bWiley,|cc2011.
300 xii, 416 p., [8] p. of plates :|bill. (some col.)
505 Preface. 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. References. 2
Theoretical Consideration and Modeling. 2.1 Molecular
Mechanisms. 2.1.1 Self-Healing Below Glass Transition
Temperature. 2.1.2 Self-Healing Above Glass Transition
Temperature. 2.2 Healing Modeling. 2.2.1 Percolation
Modeling. 2.2.2 Continuum and Molecular-Level Modeling of
Fatigue Crack Retardation. 2.2.3 Continuum Damage and
Healing Mechanics. 2.2.4 Discrete Element Modeling and
Numerical Study. 2.3 Design of Self-Healing Composites.
2.3.1 Entropy Driven Self-Assembly of Nanoparticles. 2.3.2
Optimization of Microvascular Networks. 2.4 Concluding
Remarks. References. 3 Extrinsic Self-Healing via Addition
Polymerization. 3.1 Design and Selection of Healing
System. 3.2 Microencapsulation of Mercaptan and Epoxy by
in situ Polymerization. 3.2.1 Microencapsulation of
Mercaptan. 3.2.2 Microencapsulation of Epoxy. 3.3
Characterization of Self-Healing Functionality. 3.3.1 Self
-Healing Epoxy Materials with Embedded Dual Encapsulated
Healant: Healing of Crack Due to Monotonic Fracture. 3.3.2
Factors Related to Performance Improvement. 3.3.3 Self-
Healing Epoxy Materials with Embedded Dual Encapsulated
Healant: Healing of Fatigue Crack. 3.3.4 Self-Healing
Epoxy/Glass Fabric Composites with Embedded Dual
Encapsulated Healant: Healing of Impact Damage. 3.4
Concluding Remarks. References. 4 Extrinsic Self-Healing
via Cationic Polymerization. 4.1 Microencapsulation of
Epoxy by UV Irradiation-Induced Interfacial
Copolymerization. 4.2 Encapsulation of Boron-Containing
Curing Agent. 4.2.1 Loading Boron-Containing Curing Agent
onto Porous Media. 4.2.2 Microencapsulation of Boron-
Containing Curing Agent via Hollow Capsules Approach. 4.3
Characterization of Self-Healing Functionality. 4.3.1 Self
-Healing Epoxy Materials with Embedded Epoxy-Loaded
Microcapsules and (C2H5)2O.BF3-Loaded Sisal. 4.3.2 Self-
Healing Epoxy Materials with Embedded Dual Encapsulated
Healant. 4.4 Concluding Remarks. References. 5 Extrinsic
Self-Healing via Anionic Polymerization. 5.1 Preparation
of Epoxy-Loaded Microcapsules and Latent Hardener. 5.1.1
Microencapsulation of Epoxy by in situ Condensation. 5.1.2
Preparation of Imidazole Latent Hardener. 5.2 Self-Healing
Epoxy Materials with Embedded Epoxy-Loaded Microcapsules
and Latent Hardener. 5.3 Self-Healing Epoxy/Woven Glass
Fabric Composites with Embedded Epoxy-Loaded Microcapsules
and Latent Hardener: Healing of Interlaminar Failure. 5.4
Durability of Healing Ability. 5.5 Self-Healing Epoxy/
Woven Glass Fabric Composites with Embedded Epoxy-Loaded
Microcapsules and Latent Hardener: Healing of Impact
Damage. 5.6 Concluding Remarks. References. 6 Extrinsic
Self-Healing via Miscellaneous Reactions. 6.1 Extrinsic
Self-Healing via Nucleophilic Addition and Ring-Opening
Reactions. 6.1.1 Microencapsulation of GMA by in situ
Polymerization. 6.1.2 Self-Healing Epoxy Materials with
Embedded Single-Component Healant. 6.2 Extrinsic Self-
Healing via Living Polymerization. 6.2.1 Preparation of
Living PMMA and Its Composites with GMA-Loaded
Microcapsules. 6.2.2 Characterization of Self-Healing
Functionality. 6.3 Extrinsic Self-Healing via Free Radical
Polymerization. 6.3.1 Microencapsulation of Styrene and
BPO. 6.3.2 Self-Healing Performance of Epoxy Filled with
Dual Capsules. 6.4 Concluding Remarks. References. 7
Intrinsic Self-Healing via Diels-Alder Reaction. 7.1
Molecular Design and Synthesis. 7.1.1 Synthesis and
Characterization of DGFA. 7.1.2 Reversibility of DA Bonds
and Crack Remendability of DGFA Based Polymer. 7.1.3
Synthesis and Characterization of FGE. 7.1.4 Reversibility
of DA Bonds and Crack Remendability of FGE-Based Polymer.
7.2 Blends of DGFA and FGE. 7.2.1 Reversibility of DA
Bonds. 7.2.2 Crack Remendability of Cured DGFA/FGE Blends.
7.3 Concluding Remarks. References. 8 Applications. 8.1
Coatings and Films. 8.2 Elastomers. 8.3 Smart Composites.
8.4 Tires. 8.5 Concluding Remarks. References. Appendix:
Nomenclature. Index.
506 1 400 annual accesses.|5UkHlHU
650 0 Polymeric composites.
650 0 Self-healing materials.
700 1 Rong, Min Zhi.
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