| Edition |
Second edition. |
| Description |
1 online resource |
|
text txt rdacontent |
|
computer c rdamedia |
|
online resource cr rdacarrier |
| Series |
PDL handbook series |
|
PDL handbook series.
|
| Summary |
The use of reactive polymers enables manufacturers to make chemical changes at a late stage in the production process-these in turn cause changes in performance and properties. Material selection and control of the reaction are essential to achieve optimal performance. The second edition of Reactive Polymers Fundamentals and Applications introduces engineers and scientists to the range of reactive polymers available, explains the reactions that take place, and details applications and performance benefits. Basic principles and industrial processes are described for each class of reactive resin (thermoset), as well as additives, the curing process, and applications and uses. The initial chapters are devoted to individual resin types (e.g. epoxides, cyanacrylates, etc.); followed by more general chapters on topics such as reactive extrusion and dental applications. Material new to this edition includes the most recent developments, applications and commercial products for each chemical class of thermosets, as well as sections on fabrication methods, reactive biopolymers, recycling of reactive polymers, and case studies. Injection molding of reactive polymers, radiation curing, thermosetting elastomers, and reactive extrusion equipment are all covered as well. Most comprehensive source of information about reactive polymersCovers basics as well as most recent developments, including reactive biopolymers, recycling of reactive polymers, nanocomposites, and fluorosiliconesIndispensable guide for engineers and advanced students alike-providing extensive literature and patent review. |
| Note |
Includes index. |
|
Print version record. |
| Contents |
Half Title; Series Page; Title Page; Copyright; Contents; PDL Series Editor's Preface; Preface; Chapter 1:Unsaturated Polyester Resins; 1.1 History; 1.2 Monomers; 1.2.1 Monomers for an Unsaturated Polyester; 1.2.1.1 Alcohol Components; 1.2.1.2 Acid and Anhydride Components; 1.2.1.3 Amine Modifiers; 1.2.1.4 Dicyclopentadiene; 1.2.2 Vinyl Monomers; 1.2.2.1 Styrenes; 1.2.2.2 Acrylates and Methacrylates; 1.2.2.3 Vinyl Ethers; 1.2.2.4 Other Vinyl Monomers; 1.2.3 Specialities; 1.2.3.1 Monomers for Waterborne Unsaturated Polyesters; 1.2.3.2 Low Emission Modifiers. |
|
1.2.3.3 Epoxide-Based Unsaturated Polyesters1.2.3.4 Isocyanates; 1.2.3.5 o-Carboxy Phthalanilic Acid; 1.2.3.6 Modified Plant Oils; 1.2.4 Synthesis; 1.2.4.1 Kinetics of Polyesterification; 1.2.4.2 Sequence Distribution of Double Bonds; 1.2.5 Manufacture; 1.3 Special Additives; 1.3.1 Inhibitors; 1.3.1.1 Shelf Life Extension; 1.3.2 Thickeners; 1.3.2.1 Multivalent Salts; 1.3.2.2 Thixotropic Additives; 1.3.3 Emission Suppressants; 1.3.4 Fillers; 1.3.4.1 Inorganic Fillers; 1.3.4.2 Wood Flour; 1.3.4.3 Rubber; 1.3.4.4 Nanocomposites; 1.3.4.5 Nanoclays; 1.3.4.6 Carbon Nanotubes. |
|
1.3.5 Reinforcing Materials1.3.5.1 Glass Fibers; 1.3.5.2 Wollastonite; 1.3.5.3 Carbon Fibers; 1.3.5.4 Natural Fibers; 1.3.6 Additives for Molding Applications; 1.3.6.1 Mixture Stabilizing Additives; 1.3.6.2 Mold Release Agents; 1.3.7 Low-profile Additives; 1.3.8 Interpenetrating Polymer Networks; 1.3.8.1 Poly(urethane)s; 1.3.8.2 Epoxides; 1.3.8.3 Vinylester Resins; 1.3.8.4 Phenolic Resins; 1.3.8.5 Organic-inorganic Hybrids; 1.3.9 Poly(urethane) Hybrid Networks; 1.3.9.1 UV Stabilizers; 1.3.10 Flame Retardants; 1.3.10.1 Flame Retardant Additives; 1.3.10.2 Flame Retardant Polyester Components. |
|
1.3.10.3 Flame Retardant Vinyl Monomers1.3.11 Production Data; 1.4 Curing; 1.4.1 Initiator Systems; 1.4.1.1 In Situ Generated Peroxides; 1.4.1.2 Functional Peroxides; 1.4.1.3 Photoinitiators; 1.4.2 Promoters; 1.4.3 Initiator Promoter Systems; 1.4.4 Polymerization; 1.4.4.1 Kinetics of Curing; 1.4.4.2 Catalysis by Nanoparticles; 1.4.4.3 Phase Separation; 1.5 Properties; 1.5.1 Structure-properties Relationships; 1.5.2 Hydrolytic Stability; 1.5.3 Recycling; 1.5.3.1 Microwave Radiation; 1.5.3.2 Poly(ethylene terephthalate) Waste Products; 1.5.3.3 Cured Unsaturated Polyester Resin Waste. |
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1.6 Applications and Uses1.6.1 Decorative Specimens; 1.6.2 Polyester Concrete; 1.6.3 Reinforced Materials; 1.6.4 Coatings; 1.6.4.1 Powder Coatings; 1.7 Special Formulations; 1.7.1 Electrically Conductive Resins; 1.7.2 Poly( -caprolactone)-perfluoropolyether Copolymers; 1.7.3 Toner Compositions; 1.7.4 Pour Point Depressants; 1.7.5 Biodegradable Polyesters; 1.7.6 Neutron Shielding; 1.7.7 Bone Cement; 1.7.8 Compatibilizers; 1.7.9 Reactive Melt Modification of Poly(propylene); 1.7.10 Toner Resins; References; Chapter 2: Poly(urethane)s; 2.1 History; 2.2 Monomers; 2.2.1 Diisocyanates. |
| Subject |
Reactive polymers.
|
|
Polymères réactifs.
|
|
TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
|
|
Reactive polymers
|
| Other Form: |
Print version: Fink, Johannes Karl. Reactive polymers fundamentals and applications. Norwich, N.Y. : William Andrew ; London : Elsevier Health Sciences [distributor], 2013 9781455731497 (OCoLC)824182991 |
| ISBN |
9781455731589 (electronic bk.) |
|
1455731587 (electronic bk.) |
|
1299475043 (ebk) |
|
9781299475045 (ebk) |
|
9781455731497 |
|
1455731498 |
| Standard No. |
AU@ 000051280367 |
|
AU@ 000058153082 |
|
AU@ 000060533782 |
|
CHNEW 001011161 |
|
DEBBG BV042315138 |
|
DEBBG BV044174839 |
|
DEBSZ 40534807X |
|
DEBSZ 431399905 |
|
DEBSZ 48127278X |
|
GBVCP 804599181 |
|
GBVCP 87152970X |
|
NLGGC 357566394 |
|
NZ1 15177231 |
|
