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Self-Healing Composite Materials. Woodhead Publishing Series in Composites Science and Engineering

  • ID: 4772207
  • Book
  • October 2019
  • Region: Global
  • 442 Pages
  • Elsevier Science and Technology
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Self-Healing Composite Materials: From Designs to Applications provides a unique resource on self-healing composites for materials scientists and engineers in academia, as well as researchers involved in the aerospace, automotive, wind-generation, construction, consumer goods and marine industries. There is a huge demand for self-healing composites that respond to their environment like living matter. Unlike other composites, self-healing composites are combined with carbon materials and resins to form a recoverable composite material. This book covers the manufacturing, design and characterization of self-healing composites, including their morphological, structural, mechanical, thermal and electrical properties.

The title begins with mathematical background and then considers innovative approaches to physical modeling, analysis and design techniques, providing a robust knowledge of modern self-healing composites with commercial applications.

  • Covers composite fabrication from polymer, nano oxides, epoxy and plastics
  • Gives detailed examples on how self-healing composites may be used
  • Provides readers with a robust knowledge of self-healing composites
  • Presents a unified approach to these human-friendly, commercially valuable materials

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1. Electrically conductve self healing materials: preparation, properties and applications
2. Basics of self-healing composite materials
3. Self-healing polymers for composite structural applications
4. Potential self-healing functionality in a composite structure: methodology and applications
5. Carbon self-repairing porous hybrid composites
6. Self-repairing property of polymer network with dangling chains
7. Self-Healing materials through self-mending polymers and composites
8. Self-Healing composite coatings with protective and anticorrosion potentials
9. Graphene based self healing materials
10. Enhancements in self-curing composites
11. Principle and mechanism of self-repair of polymer matrix composite materials
12. Composites for self-repairing covering to hinder corrosion
13. Synthesis of carbon self-repairing porous hybrid composites for supercapacitors
14. Effect of self-healing on zeolite-immobilized bacterial cementitious mortar composites
15. Self-Healing Concrete-Based Composites for Infrastructures
16. Development of self-healing carbon/epoxy composites
17. Self-repairing hollow fiber composites
18. Self-healing of Structural Composites containing common Thermoplastics enabled or not by Nanotechnology as Healing Agent
19. Concept of self-repair and efficiency measurement in polymer matrix composite
20. Self-healing fiber reinforced epoxy composite
21. Mechanical Behavior of Self-Healing PEI/PAA Multi-level Polymer Films
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Khan, Anish
Anish Khan is Assistant Professor in the Chemistry Department, at the Centre of Excellence for Advanced Materials Research (CEAMR), King Abdulaziz University, Saudi Arabia. He received his PhD from Aligarh Muslim University, in India. His research interests include synthetic polymers, and organic-inorganic electrically conducting nano-composites. He has extensive research and teaching experience, and has completed over twenty significant research projects. He is the Managing Editor of the Chemical Environmental and Research Journal, and has presented his work internationally. He has published over 130 articles, and 10 books.
Jawaid, Mohammad
Dr. Mohammad Jawaid received his Ph.D. from Universiti Sains Malaysia, Malaysia. He has more than 10 years of experience in teaching, research, and industry. He is also Visiting Scholar to TEMAG Labs, Department of Textile Engineering, Istanbul Technical University, Istanbul, Turkey. Previously he worked as Visiting Lecturer, Faculty of Chemical Engineering, Universiti Teknologi Malaysia (UTM) and also worked as Expatriate Lecturer under UNDP project with Ministry of Education of Ethiopia at Adama University, Ethiopia. His area of research includes Hybrid Reinforced/Filled Polymer Composites, Advance Materials: Graphene/Nanoclay/Fire Retardant, Lignocellulosic Reinforced/Filled Polymer Composites, Modification and Treatment of Lignocellulosic Fibres and Solid Wood, Nano Composites and Nanocellulose fibres, Polymer blends. So far he has published 11 books, 22 book chapters, and more than 160 International journal papers and 5 Published review papers under the Top 25 hot articles in science direct during 2014-2016. He is also the Deputy Editor-in-Chief of Malaysian Polymer Journal and Guest Editor for Current Organic Synthesis and Current Analytical Chemistry.
Raveendran, Shiju N.
Raveendran N. Shiju is Associate Professor in the Van't Hoff Institute for Molecular Sciences at the University of Amsterdam, and a Visiting Professor at Yangzhou University in China. He has won several significant prizes for his research, including the New Idea Prize from Amsterdam Science Park for the discovery of a new catalyst for nylon manufacture. He holds a PhD from the National Chemical Laboratory in Pune, India, and has published internationally.
Ahmed Asiri, Abdullah Mohammed
Abdullah Mohammed Ahmed Asiri is Professor and Chair of the Chemistry Department of King Abdulaziz University. He is also the Director of the Center for Excellence for Advanced Materials Research, and a member of the advisory committee for advancing materials for the National Technology Plan, at King Abdulaziz City of Science and Technology in Saudi Arabia. His interests include color chemistry, organic materials, organic photochromic compounds, and organic synthesis of heterocyclic compounds. He holds a PhD from the University of Wales, UK, has published widely and holds several patents.
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