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Principles of polymerization / (Record no. 35)

MARC details
000 -LEADER
fixed length control field 04492cam a2200217 a 4500
001 - CONTROL NUMBER
control field 811
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20200611111148.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 040416s2004 njua b 001 0 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 0471274003
040 ## - CATALOGING SOURCE
Transcribing agency UKM
082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number 547.28
Edition number 22
Item number O24
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Odian, George G.,
245 10 - TITLE STATEMENT
Title Principles of polymerization /
Statement of responsibility, etc George Odian.
250 ## - EDITION STATEMENT
Edition statement 4th ed.
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc Hoboken, N.J. :
Name of publisher, distributor, etc Wiley-Interscience,
Date of publication, distribution, etc 2004
300 ## - PHYSICAL DESCRIPTION
Extent xxiv, 812 p.
Other physical details ill. ;
Dimensions 25 cm.
500 ## - GENERAL NOTE
General note Previous ed.: 1991.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Polymerization.
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Koha item type Books
505 0# - FORMATTED CONTENTS NOTE
Formatted contents note Preface. <br/> 1. Introduction. <br/> 1.1 Types of Polymers and Polymerizations. <br/> 1.2 Nomenclature of Polymers. <br/> 1.3 Linear, Branched, and Crosslinked Polymers. <br/> 1.4 Molecular Weight. <br/> 1.5 Physical State. <br/> 1.6 Applications of Polymers. <br/> 2. Step Polymerization. <br/> 2.1 Reactivity of Functional Groups. <br/> 2.2 Kinetics of Step Polymerization. <br/> 2.3 Accessibility of Functional Groups. <br/> 2.4 Equilibrium Considerations. <br/> 2.5 Cyclization versus Linear Polymerization. <br/> 2.6 Molecular Weight Control in Linear Polymerization. <br/> 2.7 Molecular Weight Distribution in Linear Polymerization. <br/> 2.8 Process Condition. <br/> 2.9 Multichain Polymerization. <br/> 2.10 Crosslinking. <br/> 2.11 Molecular Weight Distributions in Nonlinear Polymerizations. <br/> 2.12 Crosslinking Technology. <br/> 2.13 Step Copolymerization. <br/> 2.14 High-Performance Polymers. <br/> 2.15 Inorganic and Organometallic Polymers. <br/> 2.16 Dendric (Highly Branched) Polymers. <br/> 3. Radical Chain Polymerization. <br/> 3.1 Nature and Radical Chain Polymerization. <br/> 3.2 Structural Arrangement of Monomer Units. <br/> 3.3 Rate of Radical Chain Polymerization. <br/> 3.4 Initiation. <br/> 3.5 Molecular Weight. <br/> 3.6 Chain Transfer. <br/> 3.7 Inhibition and Retardation. <br/> 3.8 Determination of Absolute Rate Constants. <br/> 3.9 Energetic Characteristics. <br/> 3.10 Autoacceleration. <br/> 3.11 Molecular Weight Distribution. <br/> 3.12 Effect of Pressure. <br/> 3.13 Process Conditions. <br/> 3.14 Specific Commercial Polymers. <br/> 3.15 Living Radical Polymerization. <br/> 3.16 Other Polymerizations. <br/> 4. Emulsion Polymerization. <br/> 4.1 Description of Process. <br/> 4.2 Quantitative Aspects. <br/> 4.3 Other Characteristics of Emulsion Polymerization. <br/> 5. Ionic Chain Polymerization. <br/> 5.1 Comparison of Radical and Ionic Polymerization. <br/> 5.2 Cationic Polymerization of the Carbon-Carbon Double Bond. <br/> 5.3 Anionic Polymerization of the Carbon-Carbon Double. <br/> 5.4 Block and Other Polymer Architecture. <br/> 5.5 Distinguishing Between Radical, Cationic, and Anionic Polymerizations. <br/> 5.6 Carbonyl Polymerization. <br/> 5.7 Miscellaneous Polymerizations. <br/> 6. Chain Copolymerization. <br/> 6.1 General Considerations. <br/> 6.2 Copolymer Composition. <br/> 6.3 Radical Copolymerization. <br/> 6.4 Ionic Copolymerization. <br/> 6.5 Deviations from Terminal Copolymerization Model. <br/> 6.6 Copolymerizations Involving Dienes. <br/> 6.7 Other Copolymerizations. <br/> 6.8 Applications of Copolymerizations. <br/> 7. Ring-Opening Polymerization. <br/> 7.1 General Characteristics. <br/> 7.2 Cyclic Ethers. <br/> 7.3 Lactams. <br/> 7.4 N-Carboxy-[alpha]Amino Acid Anhydrides. <br/> 7.5 Lactones. <br/> 7.6 Nitrogen Heterocyclics. <br/> 7.7 Sulfur Heterocyclics. <br/> 7.8 Cycloalkenes. <br/> 7.9 Miscellaneous Oxygen Heterocyclics. <br/> 7.10 Other Ring-Opening Polymerizations. <br/> 7.11 Inorganic and Partially Inorganic Polymers. <br/> 7.12 Copolymerization. <br/> 8. Stereochemistry of Polymerizaton. <br/> 8.1 Types of Stereoisomerism in Polymers. <br/> 8.2 Properties of Stereoregular Polymers. <br/> 8.3 Forces of Stereoregulation in Alkene Polymerization. <br/> 8.4 Traditional Ziegler-Natta Polymerization of Nonpolar Alkene Monomers. <br/> 8.5 Metallocene Polymerization of Nonpolar Alkene Monomers. <br/> 8.6 Other Hydrocarbon Monomers. <br/> 8.7 Copolymerization. <br/> 8.8 Postmetallocene: Chelate Initiators. <br/> 8.9 Living Polymerization. <br/> 8.10 Polymerization of 1,3-Dienes. <br/> 8.11 Commercial Applications. <br/> 8.12 Polymerization of Polar Vinyl Monomers. <br/> 8.13 Alehydes. <br/> 8.14 Optical Activity in Polymers. <br/> 8.15 Ring-Opening Polymerization. <br/> 8.16 Statistical Models of Propagation. <br/> 9. Reactions of Polymers. <br/> 9.1 Principles of Polymers Reactivity. <br/> 9.2 Crosslinking. <br/> 9.3 Reactions of Cellulose. <br/> 9.4 Reactions of Poly(vinyl) acetate). <br/> 9.5 Halogenation. <br/> 9.6 Aromatic Substitution. <br/> 9.7 Cyclization. <br/> 9.8 Other Reactions. <br/> 9.9 Graft Copolymers. <br/> 9.10 Block Copolymers. <br/> 9.11 Polymers as Carriers or Supports. <br/> 9.12 Polymer Reagents. <br/> Index.<br/> <br/>
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      UE-Central Library UE-Central Library 17.05.2018 U.E. 547.28 O24 T811 17.05.2018 17.05.2018 Books
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