Flame Retardant Polymer Nanocomposites
1. Auflage Mai 2007
440 Seiten, Hardcover
Wiley & Sons Ltd
Kurzbeschreibung
Flame Retardant Polymer Nanocomposites is a comprehensive look at polymer nanocomposites for flame retardancy applications and includes nanocomposite fundamentals (theory, design, synthesis, characterization) as well as polymer flammability fundamentals with emphasis on how nanocomposites affect flammability. The book has practical examples from literature, patents, and existing commercial products. Readers can design new work based upon the material in the book or use it as a handy reference for interpreting existing work and results.
A comprehensive overview of nanocomposites and the effects of nanocomposite formation on fire retardant systems
Flame Retardant Polymer Nanocomposites draws extensively from current work and research in the field to provide a detailed look at polymer nanocomposites for flame retardancy applications. It covers both nanocomposite fundamentals, including theory, design, synthesis, and characterization, and polymer flam-mability fundamentals, emphasizing the effects of nanocomposites on flammability. With chapters written by prominent scientists in the specific area, this authoritative reference: ?
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Contains practical examples from literature, patents, and existing commercial products
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Includes detailed experimental procedures that highlight the necessary steps for accurate nanocomposite research
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Serves as an authoritative reference for interpreting existing work or as a valuable resource for those designing new work and research
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Features extensive cross-referencing throughout
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Provides a preview of the future in the field, with chapters on potential applications of nanocomposites for flame retardancy and practical issues and future trends in research
This is an up-to-date, consolidated reference on polymer nanocomposite flammability for researchers in academia, government, and industry, as well as other scientists interested in polymer science, material science, chemistry, fire safety engineering, nanotechnology, and analytical science.
Chapter 2. Polymer Nanocomposite Technology, Fundamentals.
Chapter 3. Flame Retardant Mechanism of Polymer Clay Nanocomposites.
Chapter 4. Molecular Mechanics Calculations of the Thermodynamic Stabilities of Polymer/Carbon Nanotube Composites?
Chapter 5. Considerations on the Specific Impacts of the Main Fire Retardancy Mechanisms in Nanocomposites.
Chapter 6. Intumescence and Nanocomposite: a Novel Route for Flame Retarding Polymeric Materials.
Chapter 7. Flame Retardant Properties of Organoclays and Carbon Nanotubes and Their Combinations with Alumina Trihydrate.
Chapter 8. Nanocomposites with Halogen and Non-Intumescent Phosphorus Flame Retardant Additives.
Chapter 9. Thermoset Fire Retardant Nanocomposites.
Chapter 10. Progress in Flammability Studies of Nanocomposites with New Types of Nanoparticles.
Chapter 11. Potential Applications of Nanocomposites for Flame Retardancy.
Chapter 12. Practical Issues and Future Trends of Polymer Nanocomposite Flammability Research.
"Those working in the field of flame retardants for polymers scientists, engineers, researchers, material scientists, and fire scientists will use this book for its very relevant, practical, and timely information. The descriptions given also may lead to developments of new and improved flame retardant materials, well worth the price..." (IEEE Electrical Insulation, April 2008)
"...Very useful is that the book has practical examples from literature, patents, and existing commercial products. The reader can design new work based upon the material in the book or use it as a handy reference for interpreting existing work and results." (PU Magazine, August 2007)
Charles A. Wilkie, PhD, is the Pfletschinger-Habermann Professor of Chemistry at Marquette University. Dr. Wilkie has worked for almost thirty years in fire retardancy, focusing on nanocomposites the past seven years. He is Associate Editor of Polymers for Advanced Technologies and on the editorial boards of Thermochimica Acta and Polymer Degradation and Stability.
