Seymour / Carraher's polymer chemistry. (Record no. 146)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 10475cam a2200253 a 4500 |
| 001 - CONTROL NUMBER | |
| control field | 958 |
| 005 - DATE AND TIME OF LATEST TRANSACTION | |
| control field | 20200612104216.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION | |
| fixed length control field | 070118s2008 flua b 001 0 eng |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9781420051025 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 1420051024 |
| 040 ## - CATALOGING SOURCE | |
| Transcribing agency | DLC |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 547.7 |
| Edition number | 22 |
| Item number | C3128 |
| 100 1# - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Carraher, Charles E., |
| 245 10 - TITLE STATEMENT | |
| Title | Seymour / Carraher's polymer chemistry. |
| 250 ## - EDITION STATEMENT | |
| Edition statement | 7th edition |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc | Boca Raton : |
| Name of publisher, distributor, etc | CRC Press, |
| Date of publication, distribution, etc | 2008 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | 738 p. |
| Other physical details | ill. ; |
| Dimensions | 27 cm. |
| 500 ## - GENERAL NOTE | |
| General note | Includes bibliographical references and index. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name as entry element | Polymers. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name as entry element | Polymerization. |
| 700 1# - ADDED ENTRY--PERSONAL NAME | |
| Personal name | Seymour, Raymond B. |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Koha item type | Books |
| 505 0# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Contents<br/>Polymer nomenclature<br/>Studying polymer chemistry<br/>1/ introduction to polymer science<br/>1.1 history of polymers<br/>1.2 why polymers?<br/>1.3 today¿s marketplace<br/>1.4 recycling<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>2/ polymer structure (morphology)<br/>2.1 stereochemistry of polymers<br/>2.2 molecular interactions<br/>2.3 polymer crystals<br/>2.4 amorphous bulk state<br/>2.5 polymer structure-property relationships<br/>2.6 crosslinking<br/>2.7 crystalline and amorphous combinations<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>3/ molecular weight of polymers<br/>3.1 introduction<br/>3.2 solubility<br/>3.3 average molecular weight values<br/>3.4 fractionation of polydisperse systems<br/>3.5 chromatography<br/>3.6 colligative molecular weight techniques<br/> osmometry<br/> end-group analysis<br/> eublliometry and cryometry <br/>3.6 osmometry<br/>3.7 end-group analysis<br/>3.8 eublliometry and cryometry <br/>3.9 refractometry<br/>3.10 light-scattering measurements<br/>3.11 ultracentrifugation<br/>3.12 small-angle x-ray scattering<br/>3.13 mass spectrometry<br/>3.14 viscometry<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>4/ polycondensation polymers (step-reaction polymerization) <br/>4.1 comparison between polymer type and kinetics of polymerization<br/>4.2 introduction<br/>4.3 stepwise kinetics<br/>4.4 general step-reaction polymerization<br/>4.5 polycondensation mechanisms <br/>4.6 polyesters <br/>4.7 polycarbonates<br/>4.8 synthetic polyamides<br/>4.9 polyimides<br/>4.10 polybenzimidazoles and related polymers<br/>4.11 polyurethanes and polyureas<br/> foams<br/> elastomers<br/> coatings<br/>4.12 polysulfides<br/>4.13 polyethers and epoxys<br/>4.14 polysulfones<br/>4.15 polyether ether ketone) and polyketones<br/>4.16 phenolic and amino plastics<br/>4.17 furan resins<br/>4.18 synthetic routes<br/>4.19 liquid crystals<br/>4.20 microfibers<br/>4.20 general step-reaction polymerization <br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>5/ ionic chain-reaction and complex coordinative polymerization (addition polymerization)<br/>5.1 cationic polymerization<br/>5.2 anionic polymerization<br/>5.3 stereoregularity<br/>5.4 polymerization with complex coordination catalysts<br/>5.5 soluble stereoregulating catalysts<br/>5.6 polyethylenes<br/>5.7 polypropylene<br/>5.8 polymers from 1,4-dienes<br/>5.9 polyisobutylene<br/>5.10 methathesis reactions<br/>5.11 zwitterionic polymerization<br/>5.12 isomerization polymerization<br/>5.13 precipitation polymerization<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>6/ free radical polymerization (addition polymerization)<br/>6.1 initiators for free-radical chain polymerization<br/>6.2 mechanism for free-radical chain polymerization<br/>6.3 chain transfer<br/>6.4 polymerization techniques<br/>6.5 fluorine-containing polymers<br/>6.6 polystyrene<br/>6.7 poly(vinyl chloride)<br/>6.8 poly(methyl methacrylate)<br/>6.9 poly(vinyl alcohol) and poly(vinyl acetals)<br/>6.10 polyacrylonitrile<br/>6.11 solid-state irradiation polymerization<br/>6.12 plasma polymerizations<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/> <br/>7/ copolymerization<br/>7.1 kinetics of copolymerization<br/>7.2 the q-e scheme<br/>7.3 commercial copolymers<br/>7.4 block copolymers<br/>7.5 graft copolymers<br/>7.6 elastomers<br/>7.7 thermoplastic elastomers<br/>7.8 polymer blends<br/> immiscible blends<br/> miscible blends<br/>7.9 networks- general<br/>7.10 polymer mixtures<br/>7.11 dendrites<br/>7.12 ionomers<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>8/ composites and fillers <br/>8.1 fillers<br/>8.2 types of composites<br/>8.3 long fiber composites- theory<br/>8.4 fibers and resins<br/>8.5 long fiber composites- applications<br/>8.6 nanocomposites<br/>8.7 fabrication<br/>8.8 metal-matrix composites<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>9/ naturally occurring polymers- plants<br/>9.1 polysaccharides<br/>9.2 cellulose<br/>9.3 paper<br/>9.4 cellulose regenerating processes<br/>9.5 esters and ethers of cellulose<br/>9.6 starch<br/>9.7 homopolysaccharides<br/>9.8 heteropolysaccharides<br/>9.9 synthetic rubbers<br/>9.10 naturally occurring polyisoprenes<br/>9.11 resins<br/>9.11 balloons<br/>9.12 lignin<br/>9.13 melanins<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>10/ naturally occurring polymers- animals<br/>10.1 proteins<br/>10.2 levels of protein structure<br/> keratins<br/> collagen<br/> elastin<br/> globular proteins<br/>10.3 nucleic acids<br/>10.4 flow of biological information<br/>10.5 rna interference<br/>10.6 polymer structure<br/>10.7 protein folding<br/>10.8 genetic engineering<br/>10.9 dna profiling<br/>10.10 human genome-general<br/>10.11 chromosomes<br/>10.12 proteomics<br/>10.13 protein site activity identification <br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>11/ organometallic and inorganic-organic polymers<br/>11.1 introduction<br/>11.2 inorganic reaction mechanisms<br/>11.3 condensation organometallic polymers<br/>11.4 coordination polymers<br/>11.5 addition polymers<br/>11.6 sol-gel<br/>11.7 ion exchange resins <br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>12/ inorganic polymers<br/>12.1 introduction<br/>12.2 portland cement<br/>12.3 other cements<br/>12.4 silicates<br/> network<br/> layer<br/> chain<br/>12.5 silicon dioxide (amorphous) <br/>12.6 kinds of amorphous glass<br/>12.7 safety glass<br/>12.8 lenses<br/>12.9 sol-gel<br/>12.10 aerogels<br/>12.11 silicon dioxide (crystalline forms)-quartz forms<br/>12.12 silicon dioxide in electronic chips <br/>12.13 silicon dioxide in optical fibers<br/>12.14 asbestos<br/>12.15 polymeric carbon-diamond<br/>12.16 polymeric carbon-graphite<br/>12.17 internal cyclization-carbon fibers and related materials<br/>12.18 carbon nanotubes<br/> general<br/> structure<br/> applications<br/>12.19 bitumens<br/>12.20 carbon black<br/>12.16 polysulfur<br/>12.17 ceramics<br/>12.18 high-temperature superconductors<br/> discovery of the 123-compound<br/> structure of the 123-compound<br/>12.19 zeolites<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>13/ testing and spectrometric characterization of polymers<br/>13.1 spectronic characterization<br/> infrared spectroscopy<br/> raman spectroscopy<br/> ultraviolet spectroscopy<br/> nuclear magnetic resonance spectroscopy<br/> nmr applications<br/> electron paramagnetic resonance spectroscopy<br/> x-ray spectroscopy<br/>13.2 surface characterization<br/> auger electron spectroscopy and x-ray photoelectron spectroscopy<br/> near-field scanning optical microscopy<br/> electron microscopy<br/> scanning probe microscopy<br/> secondary ion mass spectroscopy<br/>13.3amorphous region determinations<br/>13.4 mass spectrometry<br/>13.5 thermal analysis<br/>13.6 thermal property tests<br/> thermal conductivity<br/> thermal expansion<br/> heat capacity<br/> glass transition temperature<br/>13.7 flammability<br/>13.8 electrical properties: theory<br/>13.9 electrical measurements<br/>13.10 optical property tests<br/> index of refraction<br/> optical clarity<br/> absorption and reflectance <br/>13.11 weatherability <br/>13.12 chemical resistance<br/>13.13 measurement of particle size<br/>13.14 measurement of adhesion<br/>13.15 permeability and diffusion <br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>14/ rheology and physical tests<br/>14.1 rheology<br/> rheology and physical tests<br/> response time<br/>14.2 typical stress-strain behavior<br/>14.3 stress-strain relationships<br/>14.4 specific physical tests<br/> tensile strength<br/> tensile strength of inorganic and metallic fibers and whiskers<br/> compressive strength<br/> impact strength<br/> hardness<br/> shear strength<br/> abrasion resistance<br/> failure<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>15/ polymer additives<br/>15.1 plasticizers<br/>15.2 antioxidants<br/>15.3 heat stabilizers<br/>15.4 ultraviolet stabilizers<br/>15.5 flame retardants<br/>15.6 colorants<br/>15.7 curing agents<br/>15.8 antistatic agents (antistats) <br/>15.9 chemical blowing agents<br/>15.10 compatibilizers<br/>15.11 impact modifiers<br/>15.12 processing aids<br/>15.13 lubricants<br/>15.14 microorganism inhibitors<br/>15.15 coupling agents<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>16/ reactions on polymers<br/>16.1 reactions with polyolefins and polyenes <br/>16.2 reactions of aromatic and aliphatic pendant groups<br/>16.3 degradation<br/>16.4. Crosslinking<br/>16.5 reactivities of end groups<br/>16.6 supramolecules and self-assembly <br/>16.7 transfer and retention of oxygen<br/>16.8 nature¿s macromolecular catalysts<br/>16.9 mechanisms of energy absorption<br/>16.10 breakage of polymeric materials<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>17/synthesis of reactants and intermediates for polymers<br/>17.1 monomer synthesis for step-reaction polymerization<br/>17.2 reactants for step-reaction polymerization<br/>17.3 synthesis of vinyl monomers<br/>17.4 synthesis of free radical initiators<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>18/polymer technology<br/>18.1 fibers<br/>18.2 elastomers<br/> elastomer processing<br/>18.3 films and sheets<br/> calendering <br/>18.4 polymeric foams<br/>18.5 reinforced plastics and laminates<br/> laminating<br/>18.6 molding <br/> injection<br/> blow molding<br/> compression and transfer<br/> thermoforming<br/>18.7 casting<br/>18.8 extrusion<br/>18.9 coatings<br/> processing<br/> surface treatment<br/>18.10 adhesives<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>19/selected topics<br/>19.1conductive polymeric materials<br/> photoconductive and photonic polymers<br/> electrically conductive polymers<br/> nano wires<br/>19.2 nonlinear optical behavior<br/>19.3 photophysics<br/>19.4 drug design and activity<br/>19.5 synthetic biomedical polymers <br/> dentistry <br/>19.6 sutures<br/>19.7 geotextiles<br/>19.8 smart materials<br/>19.9 high-performance thermoplastics<br/>19.10 construction and building<br/>19.11 flame retardant textiles<br/>19.12 water-soluble polymers <br/>19.13 anaerobic adhesives<br/>19.14 hydrogels<br/>19.15 emerging polymers<br/>Summary<br/>Glossary<br/>Exercises<br/>Additional reading<br/>Solutions<br/>Appendix a. Symbols<br/>Appendix b. Trade names<br/>Appendix c. Syllabus<br/>Appendix d. Polymer core course committees<br/>Appendix e. Structures of common polymers<br/>Appendix f. Mathematical values and units<br/>Appendix g. Comments on health<br/>Appendix h. Iso 9000 and 14000<br/>Appendix i. Electronic education web sites<br/>Appendix. J. Stereogeometry of polymers<br/>Appendix k. Statistical treatment of measurements <br/>Appendix l. Combinatorial chemistry<br/>Appendix m. Polymerization reactors<br/>Appendix n. Materials selection charts<br/> |
| Withdrawn status | Damaged status | Not for loan | Home library | Current library | Date acquired | Source of acquisition | Full call number | Barcode | Date last seen | Price effective from | Koha item type |
|---|---|---|---|---|---|---|---|---|---|---|---|
| UE-Central Library | UE-Central Library | 22.05.2018 | U.E.15304 | 547.7 C3128 | T956 | 16.02.2021 | 22.05.2018 | Books |
