Overview

This new edition includes better values of properties already reported, properties not reported in time for the earlier edition, and entirely new properties becoming important for modern polymer applications. It also contains 217 total polymers, 20 of which are all-new, particularly in high-technology areas such as eletrical conductivity, non-linear optical properties, microlithography, nanophotonics, and electroluminescences. Examples of specific polymers include silsesquoxane ladder polymers, 'foldamer' self-assembling polymers, and block copolymers that phase separate into 'mushrooms', ellipsoids, and sheets with on surface radically different in properties from the other.

Full Product Details

Author:   James E. Mark (Distinguished Research Professor of Chemistry, Distinguished Research Professor of Chemistry, University of Cincinnati)
Publisher:   Oxford University Press Inc
Imprint:   Oxford University Press Inc
Edition:   2nd Revised edition
Dimensions:   Width: 25.70cm , Height: 6.10cm , Length: 18.00cm
Weight:   1.942kg
ISBN:  

9780195181012

ISBN 10:   0195181018
Pages:   1264
Publication Date:   04 June 2009
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Acrylic polymers Addition polyimides Aliphatic polyamides Aliphatic polyesters Aromatic nylons Aromatic polyamides Cage structure polymers Carbohydrate polymers Chemical copolymers Chiral aliphatic polyesters Cofacial polymers Composite matrix resins Conjugated and other unsaturated polymers Conjugated conducting polymers Cyclic polymers Dn-carborane siloxanes Dendrimers Dendritic polymers Dendrons Diene elastomers Di-methyl silicones and siloxanes Electrically conductive polymers Engineering thermoplastics Ethylene copolymers Fluoroelastomers Homopolymers Inorganic and semi-inorganic polymers N-substituted 1-nylons Polyacetals Polyamines Polyanhydrides Polyaromatics Polycarbosilanes Polyesters Polyethers Poly(ether sulfones) Polyformals Polyheterocyclics Poly(alpha-hydroxy esters) Polyimides Poly(isocyanates) Poly(isocyanides) Polyketones Polynitriles Polyolefin copolymers Poly(alpha-olefins) Polypeptides and proteins Polyphosphazenes Polysaccharides Polysilanes Polysilazanes Polysiloxanes Polysulfides Polyureas Polyurethanes Rigid-rod polymers Saturated thermoplastic elastomers Siloxane ladder polymers Thermoplastics Thermoset polymers Thermoset resins Unsaturated thermoplastic elastomers Vinyl polymers Vinylidene polymers

Reviews

<br> This handbook presents in a standardized, readily accessible tabular format concise information on the syntheses, structures, properties, and applications of the most important polumeric materials currently in industrial use or under study for potential new industrial or academic applications. This volume should interest researchers and technologists who require a comprehensive reference source on polumers and their properties. --Chemical Education Today<br>

This handbook presents in a standardized, readily accessible tabular format concise information on the syntheses, structures, properties, and applications of the most important polumeric materials currently in industrial use or under study for potential new industrial or academic applications. This volume should interest researchers and technologists who require a comprehensive reference source on polumers and their properties. --Chemical Education Today

<br> This handbook presents in a standardized, readily accessible tabular format concise information on the syntheses, structures, properties, and applications of the most important polumeric materials currently in industrial use or under study for potential new industrial or academic applications. This volume should interest researchers and technologists who require a comprehensive reference source on polumers and their properties. --Chemical Education Today<p><br>

Author Information

James E. Mark is a Distinguished Research Professor at the University of Cincinnati. He has extensive research and consulting experience in the industry and has served as a Visiting Professor at several institutions. Dr. Mark's research interests pertain to the physical chemistry of polymers, including the elasticity of polymer networks, hybrid organic-inorganic composites, liquid-crystalline polymers, and a variety of computer simulations. He is an extensive lecturer in polymer chemistry, is an organizer and participant in a number of short courses, and has published approximately 675 research papers and coauthored or co-edited twenty-four books. He is also the founding editor of the journal Computational and Theoretical Polymer Science, which was started in 1990, is an editor for the journal Polymer, and serves on a number of journal Editorial Boards. Dr. Mark is a Fellow of the New York Academy of Sciences, the American Physical Society, and the American Association for the Advancement of Science. Books by same author Polymer Data Handbook, ed. by J. E. Mark, Oxford University Press, New York, 1999. Contemporary Polymer Chemistry, 3rd Edition, H. R. Allcock, F. W. Lampe, and J. E. Mark, Prentice Hall, Englewood Cliffs, NJ, 2003. Physical Properties of Polymers, 3rd Ed., J. E. Mark, A. Eisenberg, W. W. Graessley, L. Mandelkern, E. T. Samulski, J. L. Koenig, and G. D. Wignall, Cambridge University Press, Cambridge, UK, 2004. Inorganic Polymers, 2nd Edition, J. E. Mark, H. R. Allcock, and R. West, Oxford University Press, New York, NY, 2005. Science and Technology of Rubber, 3rd Ed., ed. by J. E. Mark, B. Erman, and F. R. Eirich, Elsevier, Amsterdam, 2005. Physical Properties of Polymers Handbook , 2nd Edition, ed. by J. E. Mark, Springer Verlag, New York, NY, 2007.

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