Self-healing smart materials and allied applications / / edited by Inamuddin [and three others]
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| Titolo: |
Self-healing smart materials and allied applications / / edited by Inamuddin [and three others]
|
| Pubblicazione: | Hoboken, NJ : , : Wiley, , 2021 |
| Descrizione fisica: | 1 online resource (560 pages) |
| Disciplina: | 624.1 |
| Soggetto topico: | Self-healing materials |
| Smart materials | |
| Persona (resp. second.): | Inamuddin <1980-> |
| Nota di bibliografia: | Includes bibliographical references and index. |
| Nota di contenuto: | Cover -- Half-Title Page -- Series Page -- Title Page -- Copyright Page -- Contents -- Preface -- 1 Self-Healing Polymer Coatings -- 1.1 Introduction -- 1.2 Extrinsic Self-Healing Polymer Coatings -- 1.3 Intrinsic Self-Healing Polymer Coatings -- 1.4 Remote Activation of Self-Healing -- 1.5 Perspectives and Challenges -- References -- 2 Smart Phenolics for Self-Healing and Shape Memory Applications -- 2.1 Introduction -- 2.2 Self-Healable Polybenzoxazines -- 2.3 Benzoxazine Resins for Shape Memory Applications -- 2.4 Conclusion -- References -- 3 Self-Healable Elastomers -- 3.1 Introduction -- 3.2 Self-Healing in Elastomers -- 3.2.1 Self-Healing Mechanism -- 3.2.2 Characterization of Healing Process -- 3.3 Particular Cases in Different Elastomers -- 3.3.1 Natural Rubber (NR) -- 3.3.2 Styrene Butadiene Rubber (SBR) -- 3.3.3 Polybutadiene Rubber -- 3.3.4 Bromobutyl Rubber -- 3.3.5 Silicones -- 3.3.6 Polyurethanes -- References -- 4 Self-Healable Tires -- 4.1 Introduction -- 4.2 Self-Healable Rubber -- 4.3 Promising Strategy for Self-Healing Rubber-Based Material -- 4.4 Conclusion -- References -- 5 Self-Healing Bacterial Cementitious Composites -- 5.1 Introduction -- 5.2 Biomineralization for Self-Healing -- 5.2.1 Bacteria as Self-Healing Agent -- 5.2.2 Bacterial Metabolic Pathway in Self-Healing -- 5.3 Strategies to Enhance the Performance of Bacterial Self-Healing -- 5.4 Evaluation of Factors Affecting Bacterial Self-Healing -- 5.4.1 Nutrient Suitability for Optimal Bacterial Growth -- 5.4.2 Viability and Activity of Encapsulated Spores -- 5.4.3 Evaluation of Encapsulation Material -- 5.4.4 Crack Healing Efficiency -- 5.4.5 Effects of Capsule Material and Bacteria on Concrete Properties -- 5.5 Conclusion, Future Prospective & -- Challenges -- References -- 6 Self-Healable Solar Cells: Recent Insights and Challenges -- 6.1 Introduction. |
| 6.2 Functional Mechanism of Protection Approaches -- 6.2.1 Self-Healable Polymeric Structure -- 6.2.2 Shape Memory Polymeric Structure -- 6.2.3 Self-Cleanable Polymeric Platforms -- 6.3 Advanced Self-Healable Polymeric Materials -- 6.3.1 Self-Healable Polymers -- 6.3.2 Self-Healable Hydrogels -- 6.4 Shape Memory Materials -- 6.5 Self-Healable Solar Cells -- 6.6 Conclusions -- References -- 7 Self-Healable Core-Shell Nanofibers -- 7.1 Introduction -- 7.2 Self-Healing Polymers in Fabrication of Core-Shell Nanofibers -- 7.3 Strategies for Core-Shell Nanofibers Fabrication -- 7.3.1 Capsule-Based Self-Healing -- 7.3.2 Vascular-Based Self-Healing -- 7.4 Methods of Fabrication of Self-Healing Core-Shell Nanofibers -- 7.4.1 Co-Electrospinning -- 7.4.2 Emulsion Electrospinning -- 7.4.3 Solution-Blown -- 7.5 Self-Healing in Laminated Composite -- 7.6 Beneficial Self-Repairing Systems on Basis of Core-Shell Nanofibers -- 7.7 Conclusion -- References -- 8 Intrinsic Self-Healing Materials -- 8.1 Introduction -- 8.2 Inverse Reactions and Chain Recombination -- 8.3 Reversible (Covalent) Bonds -- 8.3.1 Cycloadditions -- 8.3.2 Reversible Acylhydrazones -- 8.3.3 Disulfides -- 8.3.4 Alkoxyamines (Radicals) -- 8.3.5 Transesterification -- 8.4 Supramolecular Interactions -- 8.4.1 Hydrogen Bonds -- 8.4.2 π-π Interaction -- 8.4.3 Ionomers (Ballistic Stimulus) -- 8.4.4 Metallopolymers -- 8.5 Conclusion -- References -- 9 Self-Healable Catalysis -- 9.1 Introduction -- 9.2 Self-Healable Catalysis Applications -- 9.2.1 Oxygen Evolution Catalysts -- 9.2.2 Specific Catalysis Applications of Self-Healing Property -- 9.3 Conclusion -- References -- 10 Self-Healing Materials in Corrosion Protection -- 10.1 Introduction -- 10.2 Self-Healing Definition -- 10.3 Inhibition of the Corroded Regions Thanks to the Presence of Corrosion Inhibitive Pigments/Inhibitors. | |
| 10.4 The Imprisonment and Physical Release of the Inhibitor -- 10.4.1 Ion-Exchange-Based Materials -- 10.4.2 Porous-Structure and Metal Oxide Materials -- 10.4.3 Conductive Polymers -- 10.4.4 Fibril Materials -- 10.4.5 Lamellar-Structure Materials -- 10.4.6 Other Containers -- 10.5 Healing Using Polymerizable Agents -- 10.6 Conclusion and Outlook -- References -- 11 Self-Healable Conductive Materials -- 11.1 Introduction -- 11.2 Self-Healing Materials -- 11.2.1 Elastomers -- 11.2.2 Reversible Materials -- 11.3 Self-Healing Conductive Materials -- 11.3.1 Polymers -- 11.3.2 Capsules -- 11.3.3 Liquids -- 11.3.4 Composites -- 11.3.5 Coating -- 11.4 Conclusion -- References -- 12 Self-Healable Artificial Skin -- 12.1 Introduction -- 12.2 Preparation and Properties of Artificial Skin -- 12.3 Applications of Electronic Skin -- 12.4 Conclusion -- References -- 13 Self-Healing Smart Composites -- 13.1 Introduction -- 13.2 Self-Healing Mechanisms and its Classifications -- 13.2.1 Intrinsic Self-Repairing Materials -- 13.2.2 Extrinsic Self-Repairing Materials -- 13.3 Self-Healing of Thermoplastic Materials -- 13.4 Self-Healing of Thermosetting Materials -- 13.5 Conclusions and Future Study -- References -- 14 Stimuli-Responsive Self-Healable Materials -- 14.1 Self-Healing Materials -- 14.2 Synthesis of S-H Materials -- 14.3 Types of S-H Materials -- 14.4 Need for Stimuli-Responsive Shape Memory (S-RSM) Materials -- 14.5 Stimuli-Responsive or Nonautonomous S-H Materials -- 14.5.1 Light Stimuli-Responsive S-H Materials -- 14.5.2 Thermal Stimuli-Responsive S-H Materials -- 14.5.3 Chemical Stimuli-Responsive S-H Materials -- 14.5.4 Electric/Magnetic Stimuli-Responsive S-H Materials -- 14.5.5 Multi-Stimuli Responsive S-H Material -- 14.6 Commercialization and Challenges -- 14.7 Conclusions -- References -- 15 Mechanically-Induced Self-Healable Materials. | |
| 15.1 Introduction -- 15.2 Mechanically-Induced Self-Healing Based on Gel -- 15.3 Mechanically-Induced Self-Healing Based on Crystals -- 15.4 Mechanically-Induced Self-Healing Based on Composites -- 15.5 Mechanically-Induced Self-Healing for Corrosion -- 15.5.1 Capsule-Based Self-Healing Approaches for Corrosion Protection -- 15.5.2 Fiber-Based Self-Healing Approaches for Corrosion Protection -- 15.6 Conclusion -- References -- 16 Self-Healing Materials in Robotics -- 16.1 Introduction -- 16.2 Chemistry of Self-Healing (S-H) Materials -- 16.3 Working of Self-Healing (S-H) Material -- 16.4 Application of Self-Healing Robots -- 16.4.1 Self-Healing Electronics for Soft Robotics -- 16.4.2 Self-Healing Electrostatic Actuators -- 16.4.3 Self-Healing Skin for Robotics -- 16.5 Approaches to Self-Healing -- 16.6 Material Application and Damage Resilience Mechanism -- 16.7 Conclusion -- References -- 17 Self-Healing Materials in Aerospace Applications -- 17.1 Introduction -- 17.2 Classification of Self-Healing Materials -- 17.2.1 Intrinsic Mechanism -- 17.2.2 Extrinsic Mechanism -- 17.3 Self-Healing Materials in Aerospace Applications -- 17.3.1 Fiber Reinforced Polymers -- 17.3.2 Modified Epoxy -- 17.3.3 Ceramic Matrix Composites -- 17.4 Conclusion -- References -- 18 Bio-Inspired Self-Healable Materials -- 18.1 Introduction -- 18.1.1 Self-Healable Materials and Coatings -- 18.1.2 Mechanism of Self-Healing Materials -- 18.2 Repairing and Healing the Damage -- 18.3 A Systematic Biomimetic Approach -- 18.4 Self-Healable Materials: Case Studies -- 18.4.1 Regrowth of Limbs -- 18.4.2 The Mechanism of Bone Healing -- 18.4.3 Cutaneous Wound Healing -- 18.5 Applications of Bio-Inspired Self-Healable Materials-Examples -- 18.5.1 Bio-Inspired Ionic Skin for Pressure Sensing -- 18.5.2 Self-Healable Synthetic Vascular Materials Concerning Internal Damage. | |
| 18.5.3 Biobased Self-Healable Color Hydrogel -- 18.5.4 Bio-Inspired Support for Repairing Damaged Articular Cartilage -- 18.6 Conclusions and Outlook -- References -- 19 Self-Healable Batteries -- 19.1 Introduction -- 19.2 Development of Self-Healing Materials -- 19.3 Self-Healing Batteries -- 19.3.1 Self-Healable Electrodes -- 19.3.2 Self-Healable Electrolytes -- 19.4 Conclusions -- References -- 20 Self-Healing in Bleeding Composites -- 20.1 Introduction -- 20.2 Intrinsic and Extrinsic Self-Healing Materials and Their Repairing Approaches -- 20.3 Strategies of Self-Healing in Engineered Materials -- 20.3.1 Materials With Bioinspired Self-Healing Mechanism -- 20.3.2 Self-Healing in Composite Materials Based on Biomimetic Approaches -- 20.3.3 Vascular Networks -- 20.4 Healing Agents, Comparison With Biological Phenomenon and Bleeding Mechanism in Self-Healing Composite Materials -- 20.4.1 Compartmentalization, Recovery After Yield and Reinforce Repair -- 20.5 Advantages and Disadvantages of Self-Repairing Bleeding Composite Materials -- 20.6 Conclusion -- References -- 21 Self-Healing Polymers -- 21.1 Introduction -- 21.2 General Overview on Self-Healing Materials -- 21.3 Design of Self-Healing -- 21.3.1 Modes of Action of Self-Healing -- 21.3.2 Rearrangement of Surface Dynamics -- 21.3.3 Bringing the Surfaces Together -- 21.3.4 Wetness -- 21.3.5 Diffusion -- 21.4 Application of Self-Healing Materials -- 21.4.1 Properties of Self-Healing -- 21.4.2 Advancement in Self-Healing -- 21.4.3 Classification of Self-Healing -- 21.4.4 Healing Mechanism Types of Healing -- 21.5 Specific Examples of Self-Healing Polymer -- 21.5.1 Intrinsic Self-Healing -- 21.5.2 Extrinsic Self-Healing -- 21.5.3 One Capsule System -- 21.5.4 Self-Healing Based on Ring Opening Metathesis Polymerization -- 21.5.5 Solvent-Induced Self-Healing -- 21.5.6 Dual-Capsule Systems. | |
| 21.6 Conclusion and Recommendations. | |
| Sommario/riassunto: | "This comprehensive book describes the design, synthesis, mechanisms, characterization, fundamental properties, functions and development of self-healing smart materials and their composites with their allied applications. It covers cementitious concrete composites, bleeding composites, elastomers, tires, membranes, and composites in energy storage, coatings, shape-memory, aerospace and robotic applications. The 21 chapters are written by researchers from a variety of disciplines and backgrounds."-- |
| Titolo autorizzato: | Self-healing smart materials and allied applications |
| ISBN: | 1-119-71024-3 |
| 1-119-71021-9 | |
| 1-119-71023-5 | |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910831059603321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |