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200 10$aAdvances in polymer nanocomposite technology /$fVikas Mittal
210   $aHauppauge, N.Y. $cNova Science Publishers$dc2009
215   $a1 online resource (viii, 445 pages) $cillustrations (some color)
225 0 $aPolymer science & technology series
300   $aIncludes index.
311 0 $a1-60741-970-X 
327   $a""LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA""; ""CONTENTS""; ""PREFACE""; ""POLYMER NANOCOMPOSITES TECHNOLOGY:AN OVERVIEW""; ""ABSTRACT""; ""1.1. INTRODUCTION""; ""1.2. INORGANIC FILLER MATERIALS""; ""1.3. TYPE OF NANOCOMPOSITE MICROSTRUCTURES""; ""Monomer Intercalation Method""; ""Common Solvent Method or Solution Method""; ""Melt Intercalation Method""; ""1.4. POLYMER-LAYERED NANOCOMPOSITE SYSTEMS""; ""1.5. ADVANCED CLAY MODIFICATIONS""; ""1.6. PRESENCE OF EXCESS MODIFICATION & THERMALSTABILITY""; ""1.7. PREDICTION OF NANOCOMPOSITE PROPERTIES""; ""1.8. OTHER CONSIDERATIONS""
327   $a""REFERENCES"" ""ADVANCES IN POLARNANOCOMPOSITES TECHNOLOGY""; ""ABSTRACT""; ""2.1. INTRODUCTION""; ""2.2. NANOCOMPOSITES OF POLYAMIDES""; ""2.2.1. Effect of Polymer Molecular Weight""; ""2.2.2. Effect of Surfactant""; ""2.2.3. Effect of Polyamide Crystallization""; ""2.2.4. Other Polyamides""; ""2.2.5. Other Nanofillers""; ""2.3. NANOCOMPOSITES OF EPOXY""; ""2.3.1. Formation of Exfoliated Nanostructure""; ""2.3.2. Preparation Methods""; ""2.3.3. Effect of Carbon Nanotubes""; ""2.3.4. Plasticization Effect""; ""2.3.5. Some Properties of Epoxy Nanocomposites""
327   $a""2.4. NANOCOMPOSITES OF POLYURETHANES"" ""2.4.1. Preparation Methods""; ""2.4.2. Waterborne Polyurethanes""; ""2.4.3. Polyurethane Foams""; ""2.5. NANOCOMPOSITES OF POLYIMIDES""; ""2.5.1. Preparation Methods""; ""2.5.2. Low k Nanocomposites""; ""2.5.3. Effect of Carbon Nanotubes""; ""2.6. SUMMARY""; ""REFERENCES""; ""POLYMER/CLAY NANOCOMPOSITES THROUGHEMULSION AND SUSPENSION POLYMERIZATION""; ""ABSTRACT""; ""3.1. INTRODUCTION""; ""3.2. POLYMERIZATION IN DISPERSED MEDIA""; ""3.2.1. Polymerization Techniques and Commercial Products""; ""Emulsion Polymerization""; ""Suspension Polymerization""
327   $a""3.3. IMPLICATIONS OF THE TYPE OF CLAY IN THE SYNTHESIS OFWPCNS"" ""3.4.NANOCOM. SYNTHESMPOSITES USIS OF WATUSING PRISTERBORNESTINE CLAE POLYMERAY DISPERSR/CLAYSED IN WATER""; ""3.4.1. Pristine Clay in Aqueous Phase""; ""3.4.2. In-situ Modified Clay in Aqueous Phase""; ""3.4.3. In-situ Modification of Clay With Non-Cationic Amphiphilic Compounds in Aqueous Phase""; ""3.4.4. Blends of Polymeric Dispersions with Clay Dispersions""; ""3.5. SYNTHESIS OF WATERBORNE POLYMER/CLAYNANOCOMPOSITES USING ORGANICALY MODIFIED CLAYS(OMC)""
327   $a""3.5.1. OMC Dispersed in the Water Phase and Proceeded as in EmulsionPolymerization"" ""3.5.2. OMC Dispersed in the Organic Phase Followed by Emulsion,Suspension or Miniemulsion Polymerization""; ""3.5.3. Molar Mass Distribution of WPCN Synthesized Using OMCs""; ""3.6. SUMMARY AND FUTURE TRENDS""; ""3.7. ACRONYMS""; ""REFERENCES""; ""STRUCTURE-PROPERTY CORRELATIONS ANDINTERACTIONS IN POLYMER/LAYERED-SILICATE NANOCOMPOSITES""; ""ABSTRACT""; ""4.1. INTRODUCTION""; ""4.2. NANOCOMPOSITE STRUCTURE""; ""4.2.1. Particle Structure""; ""4.2.2. Gallery Structureof the Silicate""; ""4.2.3. Exfoliation""; ""4.2.4. Silicate Network""
410  0$aPolymer Science and Technology
606   $aInorganic polymers
606   $aComposite materials
606   $aNanotechnology
606   $aNanocomposites (Materials)
615  0$aInorganic polymers.
615  0$aComposite materials.
615  0$aNanotechnology.
615  0$aNanocomposites (Materials)
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996   $aAdvances in polymer nanocomposite technology$93863170
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