Fire and Polymers
Materials and Concepts for Fire Retardancy
Published on 9. July 2009
Book
Hardback
456 pages
978-0-8412-6988-0 (ISBN)
Description
Fire is a continuing problem around the world and it must be controlled. This ACS Symposium Series volume addresses recent advances in fire retardancy and examines progress that has been made in controlling fires. It focuses on the chemistry of the polymers themselves and how those chemical structures yield particular heat release, thermal decomposition products, and full-scale fire performance. The book consists of 5 sections. First, the Editors produce an overview
to put the latest research into perspective. The first third of the book focuses on Nanocomposites and Flame Retardancy and represents the current state of the field. The second third of the book is devoted to Polymer Flammability Measurement and Mechanisms. The remainder of the book will is equally
divided between New Flame Retardant Chemistry and Recent Developments in Flame Retardant Materials. Each of the 4 technical sections is preceded by a short overview provided by the editors.
to put the latest research into perspective. The first third of the book focuses on Nanocomposites and Flame Retardancy and represents the current state of the field. The second third of the book is devoted to Polymer Flammability Measurement and Mechanisms. The remainder of the book will is equally
divided between New Flame Retardant Chemistry and Recent Developments in Flame Retardant Materials. Each of the 4 technical sections is preceded by a short overview provided by the editors.
More details
Series
Language
English
Place of publication
New York
United States
Target group
College/higher education
Professional and scholarly
Scientists, students and scholars of chemistry, readers interested in the science of fire retardancy,
Product notice
Laminated cover
Illustrations
22 black and white halftones, 158 line illustrations
Dimensions
Height: 234 mm
Width: 156 mm
Thickness: 25 mm
Weight
808 gr
ISBN-13
978-0-8412-6988-0 (9780841269880)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Charles A. Wilkie has worked in the area of fire retardancy for the past 30 years. His primary interest for the past 10 years has been in the utility of polymer-clay nanocomposites in fire retardancy.
Gordon L. Nelson is the Dean of the College of Science and the Liberal Arts and Professor of Chemistry at Florida Institute of Technology.
Alex Morgan is currently working on a variety of projects where flammability performance is a key factor, and is the contact person for the UDRI fire testing and research capabilities. He is also in charge of the Polumeric Materials Characterization Lab (PMCL) where he coordinates internal and external research on polymeric material analysis.
Gordon L. Nelson is the Dean of the College of Science and the Liberal Arts and Professor of Chemistry at Florida Institute of Technology.
Alex Morgan is currently working on a variety of projects where flammability performance is a key factor, and is the contact person for the UDRI fire testing and research capabilities. He is also in charge of the Polumeric Materials Characterization Lab (PMCL) where he coordinates internal and external research on polymeric material analysis.
Content
COMPOSITES AND NANOCOMPOSITES; CONVENTIONAL FIRE RETARDANTS; METAL-CONTAINING SYSTEMS; TOXICITY; THERMAL DEGRADATION STUDIES