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Fundamentals of polymerization

Record Type:	Electronic resources : Monograph/item
Title/Author:	Fundamentals of polymerization/ Broja Mohan Mandal.
Author:	Mandal, Broja Mohan.
Published:	Singapore ;World Scientific, : c2013.,
Description:	1 online resource (xxii, 445 p.) :ill.
[NT 15003449]:	Ch. 1. Introduction. 1.1. Nomenclature. 1.2. Structural and repeating (or repeat) units. 1.3. Classification. 1.4. Functionality. 1.5. Designed branched polymers. 1.6. Physical state. 1.7. Structure-property relationship. 1.8. Thermodynamics of polymerization. 1.9. Polymerizability of internal olefins. 1.10. Molecular weights and molecular weight distributions -- ch. 2. Step polymerization. 2.1. Principle of equal reactivity of functional groups and kinetics of polymerization. 2.2. Ring vs. chain formation. 2.3. Intermolecular interchange reactions. 2.4. Degree of polymerization. 2.5. Molecular weight distribution. 2.6. Prediction of gel point in polyfunctional polycondensation. 2.7. Thermosetting resins. 2.8. Engineering plastics. 2.9. High performance polymers. 2.10. Nonconventional step polymerization -- ch. 3. Radical polymerization. 3.1. General features. 3.2. Kinetics of homogeneous radical polymerization. 3.3. Reaction orders in initiator and monomer. 3.4. Initiators. 3.5. Determination of polymer end groups. 3.6. Initiator efficiency. 3.7. Thermal polymerization and its kinetics. 3.8. Kinetic chain length, degree of polymerization, and chain transfer. 3.9. Inhibition and retardation of polymerization. 3.10. Rate constants of propagation and termination. 3.11. The course of polymerization and gel effect. 3.12. Popcorn polymerization. 3.13. Dead end polymerization. 3.14. Molecular weight distribution. 3.15. Living radical polymerization (LRP) -- ch. 4. Anionic polymerization. 4.1. Living anionic polymerization -- ch. 5. Coordination polymerization. 5.1. Ziegler-Natta catalysts. 5.2. Metallocene catalysts. 5.3. Late transition metal catalysts. 5.4. Living polymerization of alkenes -- ch. 6. Cationic polymerization. 6.1. The nucleophilicity and electrophilicity scales. 6.2. Bronsted acids as initiators. 6.3. Lewis acids as coinitiators. 6.4. End functionalized polymers. 6.5. Photoinitiated cationic polymerization. 6.6. Propagation rate constants -- ch. 7. Ring-opening polymerization and ring-opening metathesis polymerization. 7.1. General features. 7.2. Cyclic ethers. 7.3. Cyclic acetals. 7.4. Cyclic esters. 7.5. Lactams. 7.6. N-carboxy-[symbol]-aminoacid anhydrides. 7.7. Oxazolines (cyclic imino ethers). 7.8. Cyclic amines. 7.9. Cyclic sulfides. 7.10. Cyclosiloxanes. 7.11. Cyclotriphosphazenes. 7.12. Cyclic olefins -- ch. 8. Chain copolymerization. 8.1. Terminal model of copolymerization. 8.2. Penultimate model of copolymerization. 8.3. Living radical copolymerization -- ch. 9. Heterophase polymerization. 9.1. Particle stabilization mechanisms. 9.2. Suspension polymerization. 9.3. Emulsion polymerization. 9.4. Inverse emulsion polymerization. 9.5. Miniemulsion polymerization. 9.6. Microemulsion polymerization. 9.7. Dispersion polymerization. 9.8. Heterophase living radical polymerization.
Subject:	Polymerization. -
Online resource:	http://www.worldscientific.com/worldscibooks/10.1142/7882#t=toc
ISBN:	9789814322850 (electronic bk.)

Fundamentals of polymerization
Mandal, Broja Mohan.

Fundamentals of polymerization[electronic resource] /Broja Mohan Mandal. - Singapore ;World Scientific,c2013. - 1 online resource (xxii, 445 p.) :ill.

Includes bibliographical references and index.

Ch. 1. Introduction. 1.1. Nomenclature. 1.2. Structural and repeating (or repeat) units. 1.3. Classification. 1.4. Functionality. 1.5. Designed branched polymers. 1.6. Physical state. 1.7. Structure-property relationship. 1.8. Thermodynamics of polymerization. 1.9. Polymerizability of internal olefins. 1.10. Molecular weights and molecular weight distributions -- ch. 2. Step polymerization. 2.1. Principle of equal reactivity of functional groups and kinetics of polymerization. 2.2. Ring vs. chain formation. 2.3. Intermolecular interchange reactions. 2.4. Degree of polymerization. 2.5. Molecular weight distribution. 2.6. Prediction of gel point in polyfunctional polycondensation. 2.7. Thermosetting resins. 2.8. Engineering plastics. 2.9. High performance polymers. 2.10. Nonconventional step polymerization -- ch. 3. Radical polymerization. 3.1. General features. 3.2. Kinetics of homogeneous radical polymerization. 3.3. Reaction orders in initiator and monomer. 3.4. Initiators. 3.5. Determination of polymer end groups. 3.6. Initiator efficiency. 3.7. Thermal polymerization and its kinetics. 3.8. Kinetic chain length, degree of polymerization, and chain transfer. 3.9. Inhibition and retardation of polymerization. 3.10. Rate constants of propagation and termination. 3.11. The course of polymerization and gel effect. 3.12. Popcorn polymerization. 3.13. Dead end polymerization. 3.14. Molecular weight distribution. 3.15. Living radical polymerization (LRP) -- ch. 4. Anionic polymerization. 4.1. Living anionic polymerization -- ch. 5. Coordination polymerization. 5.1. Ziegler-Natta catalysts. 5.2. Metallocene catalysts. 5.3. Late transition metal catalysts. 5.4. Living polymerization of alkenes -- ch. 6. Cationic polymerization. 6.1. The nucleophilicity and electrophilicity scales. 6.2. Bronsted acids as initiators. 6.3. Lewis acids as coinitiators. 6.4. End functionalized polymers. 6.5. Photoinitiated cationic polymerization. 6.6. Propagation rate constants -- ch. 7. Ring-opening polymerization and ring-opening metathesis polymerization. 7.1. General features. 7.2. Cyclic ethers. 7.3. Cyclic acetals. 7.4. Cyclic esters. 7.5. Lactams. 7.6. N-carboxy-[symbol]-aminoacid anhydrides. 7.7. Oxazolines (cyclic imino ethers). 7.8. Cyclic amines. 7.9. Cyclic sulfides. 7.10. Cyclosiloxanes. 7.11. Cyclotriphosphazenes. 7.12. Cyclic olefins -- ch. 8. Chain copolymerization. 8.1. Terminal model of copolymerization. 8.2. Penultimate model of copolymerization. 8.3. Living radical copolymerization -- ch. 9. Heterophase polymerization. 9.1. Particle stabilization mechanisms. 9.2. Suspension polymerization. 9.3. Emulsion polymerization. 9.4. Inverse emulsion polymerization. 9.5. Miniemulsion polymerization. 9.6. Microemulsion polymerization. 9.7. Dispersion polymerization. 9.8. Heterophase living radical polymerization.

Over the last twenty years, the field of the chemistry of polymerization witnessed enormous growth through the development of new concepts, catalysts, processes etc. Examples are: non classical living polymerizations (group transfer polymerization, living carbocationic polymerization, living radical polymerization and living ring-opening metathesis polymerization (ROMP)); new catalysts (metallocenes and late transition metal catalysts for stereospecific polymerization, Schrock and Grubbs catalyst for ROMP among others) and new processes such as miniemulsion, microemulsion polymerization and dispersion polymerization (in polar solvents). Apart from the developments in the chemistry of polymerization, methods have been developed for the evaluation of highly reliable rate constants of propagation in radical as well as cationic polymerization. All these have revolutionized the field of synthetic polymer chemistry. In the book, fundamentals of both the new and old polymerization chemistry have been dealt with. The new chemistry has been given nearly equal space along with the old.

ISBN: 9789814322850 (electronic bk.)Subjects--Topical Terms:

560492
Polymerization.

LC Class. No.: QD281.P6 / M36 2013eb

Dewey Class. No.: 547.2/8

Fundamentals of polymerization
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245 1 0 $a Fundamentals of polymerization $h [electronic resource] / $c Broja Mohan Mandal.
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300 $a 1 online resource (xxii, 445 p.) : $b ill.
504 $a Includes bibliographical references and index.
505 0 $a Ch. 1. Introduction. 1.1. Nomenclature. 1.2. Structural and repeating (or repeat) units. 1.3. Classification. 1.4. Functionality. 1.5. Designed branched polymers. 1.6. Physical state. 1.7. Structure-property relationship. 1.8. Thermodynamics of polymerization. 1.9. Polymerizability of internal olefins. 1.10. Molecular weights and molecular weight distributions -- ch. 2. Step polymerization. 2.1. Principle of equal reactivity of functional groups and kinetics of polymerization. 2.2. Ring vs. chain formation. 2.3. Intermolecular interchange reactions. 2.4. Degree of polymerization. 2.5. Molecular weight distribution. 2.6. Prediction of gel point in polyfunctional polycondensation. 2.7. Thermosetting resins. 2.8. Engineering plastics. 2.9. High performance polymers. 2.10. Nonconventional step polymerization -- ch. 3. Radical polymerization. 3.1. General features. 3.2. Kinetics of homogeneous radical polymerization. 3.3. Reaction orders in initiator and monomer. 3.4. Initiators. 3.5. Determination of polymer end groups. 3.6. Initiator efficiency. 3.7. Thermal polymerization and its kinetics. 3.8. Kinetic chain length, degree of polymerization, and chain transfer. 3.9. Inhibition and retardation of polymerization. 3.10. Rate constants of propagation and termination. 3.11. The course of polymerization and gel effect. 3.12. Popcorn polymerization. 3.13. Dead end polymerization. 3.14. Molecular weight distribution. 3.15. Living radical polymerization (LRP) -- ch. 4. Anionic polymerization. 4.1. Living anionic polymerization -- ch. 5. Coordination polymerization. 5.1. Ziegler-Natta catalysts. 5.2. Metallocene catalysts. 5.3. Late transition metal catalysts. 5.4. Living polymerization of alkenes -- ch. 6. Cationic polymerization. 6.1. The nucleophilicity and electrophilicity scales. 6.2. Bronsted acids as initiators. 6.3. Lewis acids as coinitiators. 6.4. End functionalized polymers. 6.5. Photoinitiated cationic polymerization. 6.6. Propagation rate constants -- ch. 7. Ring-opening polymerization and ring-opening metathesis polymerization. 7.1. General features. 7.2. Cyclic ethers. 7.3. Cyclic acetals. 7.4. Cyclic esters. 7.5. Lactams. 7.6. N-carboxy-[symbol]-aminoacid anhydrides. 7.7. Oxazolines (cyclic imino ethers). 7.8. Cyclic amines. 7.9. Cyclic sulfides. 7.10. Cyclosiloxanes. 7.11. Cyclotriphosphazenes. 7.12. Cyclic olefins -- ch. 8. Chain copolymerization. 8.1. Terminal model of copolymerization. 8.2. Penultimate model of copolymerization. 8.3. Living radical copolymerization -- ch. 9. Heterophase polymerization. 9.1. Particle stabilization mechanisms. 9.2. Suspension polymerization. 9.3. Emulsion polymerization. 9.4. Inverse emulsion polymerization. 9.5. Miniemulsion polymerization. 9.6. Microemulsion polymerization. 9.7. Dispersion polymerization. 9.8. Heterophase living radical polymerization.
520 $a Over the last twenty years, the field of the chemistry of polymerization witnessed enormous growth through the development of new concepts, catalysts, processes etc. Examples are: non classical living polymerizations (group transfer polymerization, living carbocationic polymerization, living radical polymerization and living ring-opening metathesis polymerization (ROMP)); new catalysts (metallocenes and late transition metal catalysts for stereospecific polymerization, Schrock and Grubbs catalyst for ROMP among others) and new processes such as miniemulsion, microemulsion polymerization and dispersion polymerization (in polar solvents). Apart from the developments in the chemistry of polymerization, methods have been developed for the evaluation of highly reliable rate constants of propagation in radical as well as cationic polymerization. All these have revolutionized the field of synthetic polymer chemistry. In the book, fundamentals of both the new and old polymerization chemistry have been dealt with. The new chemistry has been given nearly equal space along with the old.
588 $a Description based on print version record.
650 0 $a Polymerization. $3 560492
856 4 0 $u http://www.worldscientific.com/worldscibooks/10.1142/7882#t=toc