| Edition |
Second edition. |
| Description |
1 online resource |
|
text txt rdacontent |
|
computer c rdamedia |
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online resource cr rdacarrier |
| Series |
Plastic design library |
|
Plastic design library.
|
| Note |
Previous edition: 2008. |
|
Includes index. |
|
Print version record. |
| Bibliography |
Includes bibliographical references and index. |
| Summary |
Annotation Approaching the material from a chemistry and engineering perspective, High Performance Polymers presents the most reliable and current data available about state-of-the-art polymerization, fabrication, and application methods of high performance industrial polymers. Chapters are arranged according to the chemical constitution of the individual classes, beginning with main chain carbon-carbon polymers and leading to ether-containing, sulfur-containing, and so on. Each chapter follows an easily readable template, provides a brief overview and history of the polymer, and continues on to such sub-topics as monomers; polymerization and fabrication; properties; fabrication methods; special additives; applications; suppliers and commercial grades; safety; and environmental impact and recycling. High Performance Polymers brings a wealth of up-to-date, high performance polymer data to you library, in a format that allows for either a fast fact-check or more detailed study. In this new edition the data has been fully updated to reflect all developments since 2008, particularly in the topics of monomers, synthesis of polymers, special polymer types, and fields of application. Presents the state-of-the-art polymerization, fabrication and application methods of high performance industrial polymers. Provides fundamental information for practicing engineers working in industries that develop advanced applications (including electronics, automotive and medical)Discusses environmental impact and recycling of polymers. |
| Contents |
Half Title; PDL Series; Title Page; Copyright; Contents; Preface; Preface; Acknowledgments; 1 Carbazole Polymers; 1.1 Monomers; 1.1.1 N-Vinylcarbazole; 1.1.2 Nonlinear Optical Side Chain Monomers; 1.1.3 Molecular Glasses; 1.2 Polymerization and Fabrication; 1.2.1 Polymerization; 1.2.1.1 Poly(N-vinylcarbazole); 1.2.1.2 NVK/Pyrrol Composites; 1.2.2 Other Vinylcarbazole Compounds; 1.2.2.1 Grignard Coupling; 1.2.2.2 Anionic Polymerization; 1.2.2.3 Heck Cross Coupling; 1.2.2.4 Copolymers; 1.2.2.5 Solution Processing; 1.3 Properties; 1.3.1 Liquid Crystalline Phases. |
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1.3.1.1 Charge Transporting Materials1.3.1.2 Principle of Xerography; 1.3.2 Optical Properties; 1.3.2.1 Polarization Rotators; 1.3.2.2 Enhanced Photorefractive Performance; 1.3.2.3 Hologram Images; 1.3.2.4 Holographic Recording Medium; 1.3.2.5 Effect of Molecular Weight of PVK on Photorefractive Performance; 1.3.2.6 Fluorescence Quenching; 1.4 Applications; 1.4.1 Electrophotographic Films; 1.4.1.1 Photoconductivity; 1.4.1.2 TNF-PVK Complexes; 1.4.1.3 Photoconductive Copolymers; 1.4.1.4 Copolymers; 1.4.2 Polymeric Light-Emitting Diodes; 1.4.2.1 Förster Energy Transfer; 1.4.2.2 Service Time. |
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1.4.2.3 Methods of Fabrication of LEDs1.4.2.4 Poly(fluorene)s; 1.4.2.5 NVK/PBD; 1.4.2.6 Functionalized Polymers; 1.4.2.7 Metal Complexes; 1.4.2.8 Mixed Dyes; 1.4.2.9 Multilayer Light-Emitting Diode; 1.4.2.10 Other Chromophores; 1.4.3 Organic Photorefractive Materials; 1.4.3.1 Photorefractive Formulations; 1.4.3.2 Holograms; 1.4.4 Photovoltaic Devices; 1.4.5 Amplified Spontaneous Emission; 1.4.6 Optical Elements; 1.4.7 Antistatic Polymer; 1.4.8 Other Applications; 1.4.8.1 Microscopic Imaging; 1.4.9 Analytical Applications; 1.4.10 Nanocomposites; 1.4.10.1 Poly(pyrrole)-Modified Nanocomposites. |
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1.4.10.2 Poly(aniline)-Modified Nanocomposites1.4.10.3 Carbon Nanotubes; 1.4.10.4 Clay Nanohybrids; 1.4.11 Fuel Cells; 1.4.12 Coatings; 1.4.13 Fibers; 1.5 Suppliers and Commercial Grades; 1.6 Safety; References; 2 Poly(p-xylylene)s; 2.1 Monomers; 2.1.1 Chlorine-Substituted Monomers; 2.2 Sulfide Modified Polymers; 2.3 Polymerization and Fabrication; 2.3.1 Chemical Vapor Deposition; 2.3.1.1 Fluor Containing Parylenes; 2.3.1.2 Copolymers; 2.3.1.3 Organic Transistors; 2.3.1.4 CMOS Devices; 2.3.1.5 Siloxane-Substituted Poly(p-Xylylene)s; 2.3.1.6 Soft Magnetic Composites. |
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2.3.2 Solution Polymerization2.3.3 Self-Assembly Polymerization; 2.4 Properties; 2.4.1 Mechanical Properties; 2.4.2 Electrical Properties; 2.5 Applications; 2.5.1 Coatings; 2.5.1.1 Coatings for Solder Powders; 2.5.1.2 Waveguide Coatings; 2.5.1.3 Reinforcement Layers; 2.5.1.4 Printed Circuit Boards; 2.5.2 Medical Applications; 2.5.2.1 Surface Modification; 2.5.2.2 Drug Release; 2.5.2.3 Modification of Poly(dimethylsiloxane) for Biomedical Applications; 2.5.2.4 Parylene Coating for Cardiac Pacemaker Electrodes; 2.5.2.5 Implants; 2.5.3 Microelectrode Arrays; 2.5.4 Nanocomposites. |
| Subject |
Polymer engineering.
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Polymers -- Industrial applications.
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Génie des polymères.
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Polymères -- Applications industrielles.
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polymer science.
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TECHNOLOGY & ENGINEERING -- Engineering (General)
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TECHNOLOGY & ENGINEERING -- Reference.
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Polymer engineering
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Polymers -- Industrial applications
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| Other Form: |
Print version: Fink, Johannes Karl. High performance polymers. Second edition 9780323312226 (OCoLC)883425734 |
| ISBN |
9780323311434 (electronic bk.) |
|
0323311431 (electronic bk.) |
|
9780815515807 (electronic bk.) |
|
0815515804 (electronic bk.) |
|
9780323312226 |
|
0323312225 |
| Standard No. |
AU@ 000056928048 |
|
AU@ 000065066115 |
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AU@ 000066230407 |
|
AU@ 000066527949 |
|
AU@ 000067096679 |
|
AU@ 000068482346 |
|
CHNEW 001012370 |
|
DEBBG BV042309815 |
|
DEBSZ 414277376 |
|
NLGGC 380736853 |
|
