Polymer reaction engineering /
Polymers are an example of 8220;products-by-process8221;, where the final product properties are mostly determined during manufacture, in the reactor. An understanding of processes occurring in the polymerization reactor is therefore crucial to achieving efficient, consistent, safe and environmental...
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| Format: | eBook |
| Language: | English |
| Language Notes: | English. |
| Published: |
Oxford ; Ames, Iowa :
Blackwell Pub.,
2007.
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Cover
- TOC36;Contents
- Contributors
- Preface
- Notation
- Acronyms
- CH36;1 Introduction to Polymerization Processes
- 146;1 Microstructural features of polymers and their effect on properties
- 146;146;1 Chemical composition and monomer sequence distribution
- 146;146;2 Molecular weight distribution
- 146;146;3 Polymer architecture
- 146;146;4 Chain configuration
- 146;146;5 Morphology
- 146;146;6 Effect of processing and compounding on the microstructure of the polymeric materials
- 146;2 Classes of polymerizations
- 146;246;1 Chain45;growth polymerization
- 146;246;2 Step45;growth polymerization
- 146;3 Polymerization techniques
- 146;4 Main commercial polymers
- 146;446;1 Polyolefins
- 146;446;2 Styrenic polymers
- 146;446;3 Poly40;vinyl chloride41;
- 146;446;4 Waterborne dispersed polymers
- 146;446;5 Polyesters and polyamides
- 146;446;6 Thermosets
- 146;5 Polymerization reactors
- References
- CH36;2 Coordination Polymerization
- 246;1 Polyolefin types58; microstructural classification and analytical techniques
- 246;146;1 Polyethylene types
- 246;146;2 Polypropylene types
- 246;146;3 Polyolefin microstructural characterization techniques
- 246;2 Catalysts for olefin polymerization
- 246;246;1 Coordination catalyst types
- 246;246;2 Polymerization mechanism
- 246;3 Polymerization kinetics for single45; and multiple45;site catalysts
- 246;346;1 Homopolymerization
- 246;346;2 Copolymerization
- 246;346;3 Long45;chain branch formation
- 246;4 Inter45; and intraparticle mass and heat transfer resistances
- 246;446;1 Particle fragmentation and morphology control
- 246;446;2 Single particle models58; inter45; and intraparticle mass and heat transfer
- 246;5 Industrial olefin polymerization reactors
- 246;546;1 Reactor configurations and designs
- 246;546;2 Polyethylene manufacturing processes
- 246;546;3 Polypropylene manufacturing processes
- 246;546;4Mathematical models for industrial reactors
- Acknowledgments
- References
- CH36;3 Free45;Radical Polymerization58; Homogeneous Systems
- 346;1 Free45;radical polymers58; properties and applications
- 346;2 FRP mechanisms and kinetics
- 346;246;1 Homopolymerization
- 346;246;2 Copolymerization
- 346;246;3 Diffusion45;controlled reactions
- 346;246;4 Kinetic balances for modeling polymer MWs
- 346;3 Controlled radical polymerization
- 346;346;1 Stable free45;radical polymerization
- 346;346;2 Atom transfer radical polymerization
- 346;346;3 Reverse addition45;fragmentation chain transfer polymerization
- 346;4 Polymer reaction engineering aspects
- 346;446;1 Heat removal and temperature programming
- 346;446;2 Batch reactors
- 346;446;3 Semibatch 40;semicontinuous41; reactors
- 346;446;4 Continuous stirred45;tank reactors
- 346;446;5 Tubular reactors
- 346;5 A 34;roadmap34; for mathematical modeling
- References
- CH36;4 Free45;Radical Polymerization58; Heterogeneous Systems
- 446;1 Introduction
- 446;2 High45;impact polystyrene
- 446;246;1 Interrelationship between microstructure and application properties
- 446;246;2 Modeling HIPS polymerization
- 446;2 &