Verfügbarkeit: Optimization of polymer nanocomposite properties

Optimization of polymer nanocomposite properties:

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Bibliographische Detailangaben
Weitere Verfasser:	Mittal, Vikas (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2010
Schlagworte:	Nanostructured materials Nanostructured materials > Properties Polymeric composites Polymeric composites > Properties Nanokomposit Organisch-anorganischer Hybridwerkstoff
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXII, 418 S. Ill., graph. Darst.
ISBN:	9783527325214

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adam_text	CONTENTS PREFACE XV LIST OF CONTRIBUTORS XIX 1 POLYMER NANOCOMPOSITES: SYNTHESIS, MICROSTRUCTURE, AND PROPERTIES 1 VIKAS MITTAL 1.1 INTRODUCTION 1 1.2 MEANS OF SYNTHESIS AND MICROSTRUCTURE 3 1.3 IMPORTANCE OF THERMOGRAVIMETRIC ANALYSIS AND X-RAY DIFFRACTION FOR FILLER AND NANOCOMPOSITE MICROSTRUCTURE CHARACTERIZATION 6 1.4 POLAR AND NONPOLAR POLYMER SYSTEMS 9 1.5 ADVANCES IN FILLER SURFACE MODIFICATIONS 14 1.6 PREDICTION OF COMPOSITE PROPERTIES 15 REFERENCES 17 2 MORPHOLOGY DEVELOPMENT IN THERMOSET NANOCOMPOSITES 21 PETERJ. HALLEY 2.1 INTRODUCTION 21 2.2 EPOXY NANOCOMPOSITE SYSTEMS 22 2.3 EFFECTS OF PROCESSING AND AGING 27 2.4 OTHER THERMOSET NANOCOMPOSITE SYSTEMS 30 2.5 RECENT ADVANCES IN THERMOSET NANOCOMPOSITES 33 2.5.1 EPOXY-HBP NANOSTRACRURED SYSTEMS 33 2.5.2 TERNARY NANOSTRUCRURED SYSTEMS AND MULTISCALE COMPOSITES 34 2.5.3 NOVEL CHARACTERIZATION METHODS 36 2.5.4 MODELING THERMOSET NANOCOMPOSITE SYSTEMS 36 2. BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/995647046 DIGITALISIERT DURCH VI CONTENTS 3 MORPHOLOGY AND INTERFACE DEVELOPMENT IN RUBBER-CLAY NANOCOMPOSITES 41 YONG-LAI LU AND LI-QUN ZHANG 3.1 INTRODUCTION 41 3.2 MELT COMPOUNDING 42 3.2.1 MECHANISM AND INFLUENCING FACTORS 42 3.2.1.1 THE ORGANIC MODIFICATION 43 3.2.1.2 THE FEATURES OF RUBBER AND COMPATIBILIZERS OR COUPLING AGENTS 44 3.2.1.3 MELT-COMPOUNDING CONDITIONS 44 3.2.2 EVOLUTION OF MORPHOLOGY AND INTERFACE DURING VULCANIZATION OF RCNS 44 3.2.2.1 CHANGES IN THE LOCAL MICROSTRUCTURE OF CLAY PARTICLES 44 3.2.2.2 CHANGE IN THE SPATIAL DISTRIBUTION OF CLAY PARTICLES 45 3.3 LATEX COMPOUNDING 57 3.3.1 MECHANISM AND INFLUENCING FACTORS 57 3.3.2 INTERFACE ENHANCEMENT 60 REFERENCES 65 4 MORPHOLOGY DEVELOPMENT IN POLYOLEFIN NANOCOMPOSITES 67 MITSUYOSHI FUJIYAMA 4.1 INTRODUCTION 67 4.2 INTERCALATION, EXFOLIATION, AND DISPERSION OF MMT 68 4.2.1 MANUFACTURING PROCESSES 68 4.2.2 DISPERSION (EXFOLIATION) STATE OF NANOCLAYS 69 4.2.3 EXFOLIATION PROCESS OF NANOCLAYS 72 CONTENTS VII 4.4.3 FILM EXTRUSION CASTING 90 4.5 CONCLUSIONS 90 REFERENCES 91 5 RHEOLOGICAL BEHAVIOR OF POLYMER NANOCOMPOSITES 93 MO SONG AND JIE JIN 5.1 INTRODUCTION 93 5.2 RHEOLOGICAL BEHAVIOR OF POLYMER NANOCOMPOSITES IN SOLUTION STATE 95 5.3 RHEOLOGICAL BEHAVIOR OF POLYMER NANOCOMPOSITES IN MELT STATE 107 5.4 CONCLUSIONS 118 REFERENCES 119 6 MECHANICAL PROPERTY ENHANCEMENT OF POLYMER NANOCOMPOSITES 123 NOURREDINE AIT HOCINE 6.1 INTRODUCTION 123 6.2 MATERIAL STIFFNESS 124 6.2.1 EXPERIMENTAL INVESTIGATIONS 124 6.2.2 ANALYTICAL MODELING 125 6.3 ULTIMATE MECHANICAL PROPERTIES 129 6.3.1 EXPERIMENTAL INVESTIGATIONS 129 6.3.2 ANALYTICAL MODELING 131 6.3.2.1 YIELD STRESS 131 6.3.2.2 PROPERTIES AT BREAK 132 6.4 CONCLUSIONS 135 REFERENCES 136 VILI CONTENTS 7.2.4.3 KINETICS OF CRACK PROPAGATION MEASUREMENT USING A S INGLE-SPECIMEN TECHNIQUE 145 7.3 MECHANICAL BEHAVIOR OF POLYMER NANOCOMPOSITES AND STRESS TRANSFER 145 7.3.1 AMORPHOUS THERMOPLASTIC 145 7.3.2 SEMI-CRYSTALLINE THERMOPLASTIC 149 7 A FRACTURE MECHANICS OF CNT-POLYMER NANOCOMPOSITES 156 7.4.1 AMORPHOUS THERMOPLASTIC 156 7.4.2 SEMI-CRYSTALLINE THERMOPLASTIC 162 7.5 CONCLUDING REMARKS 168 ACKNOWLEDGMENTS 169 REFERENCES 169 8 BARRIER RESISTANCE GENERATION IN POLYMER NANOCOMPOSITES 173 VIKAS MITTAL 8.1 INTRODUCTION 173 8.2 THEORY OF PERMEATION 174 8.3 BARRIER GENERATION IN POLAR NANOCOMPOSITES 176 8.4 BARRIER GENERATION IN NONPOLAR NANOCOMPOSITES 183 8.5 MODELING OF BARRIER PROPERTIES OF COMPOSITES 189 REFERENCES 192 9 MECHANISMS OF THERMAL STABILITY ENHANCEMENT IN POLYMER NANOCOMPOSITES 195 KRZYSZTOF PIELICHOMKI, AGNIESZKA LESZCZYNSKA, AND JAMES NJUGUNA 9.1 INTRODUCTION 195 9.2 THE MECHANISMS OF THERMAL STABILITY IMPROVEMENT BY DIFFERENT NANOFILLER CONTENTS IX 10 MECHANISMS OF TRIBOLOGICAL PERFORMANCE IMPROVEMENT IN POLYMER NANOCOMPOSITES 211 CA ZHANG AND ALOIS K. SCHLARB 10.1 INTRODUCTION 211 10.2 NANOPARTICLE REINFORCEMENTS 213 10.2.1 IMPROVEMENT OF WEAR PERFORMANCE BY USING NANOPARTICLES 214 10.2.2 ROLES OF NANOPARTICLES ON TRANSFER FILM FORMATION 214 10.2.3 STRUCTURE-TRIBOLOGICAL PROPERTY RELATIONSHIPS 215 10.2.3.1 EFFECT OF GRAFTING TREATMENT OF NANOPARTICLES ON TRIBOLOGICAL IMPROVEMENT OF EPOXY NANOCOMPOSITES 217 10.2.3.2 ROLE OF NANO-SIO 2 PARTICLES ON THE MECHANICAL AND TRIBOLOGICAL BEHAVIORS OF PEEK 218 10.3 CARBON NANOTUBES 223 10.4 SYNTHETIC ROLES OF NANOPARTICLES WITH TRADITIONAL FILLERS 226 10.4.1 TRIBOLOGICAL BEHAVIOR OF TRADITIONAL AND NANOFILLERS (OR SUB-MICRO)- FILLED EPOXY 226 10.4.2 ROLES OF NANOPARTICLES ON THE TRIBOLOGICAL BEHAVIOR OF SCF/PTFE/GRAPHITE-FILLED PEEK 227 REFERENCES 233 11 MECHANISMS OF BIODEGRADABILITY GENERATION IN POLYMER NANOCOMPOSITES 235 MITSUHIRO SHIBATA 11.1 INTRODUCTION 235 X I CONTENTS 12.2.3 GEOMETRIC ASPECTS IN ENCAPSULATION 265 12.3 NANOPARTICLE-REINFORCED SELF-HEALING POLYMER SYSTEMS 270 12.3.1 MODELING THE MODULUS OF NANOPARTICLE-FILLED POLYMERS 270 12.3.2 EXPERIMENTAL VALIDATION FOR NON-SELF-HEALING SYSTEMS 273 12.3.3 DESIGN OF A SELF-HEALING NANOPARTICLE COMPOSITE 274 12.4 CONCLUDING REMARKS 277 ACKNOWLEDGMENTS 277 REFERENCES 277 13 CRYSTALLIZATION IN POLYMER NANOCOMPOSITES 279 JYOTIJOG 13.1 INTRODUCTION 279 13.2 NANOFILLERS 280 13.2.1 SILICATES 280 13.2.2 CARBON NANOTUBES 283 13.2.3 EXFOLIATED GRAPHITE 281 13.2.4 OTHER NANOPARTICLES 282 13.3 ISOTHERMAL AND NONISOTHERMAL CRYSTALLIZATION IN POLYMERS 282 13.3.1 POLYPROPYLENE (PP) 283 13.3.1.1 CRYSTALLIZATION 283 13.3.1.2 POLYMORPHISM IN PP 285 13.3.2 POLY-1-BUTENE (PB) 285 13.3.3 POLYBUTYLENE TEREPHTHALATE (PBT) 286 13.3.4 POLYETHYLENE TEREPHTHALATE (PET) 287 CONTENTS XI 13.3.15.1 CRYSTALLIZATION 295 13.3.15.2 POLYMORPHISM IN SPS 296 13.4 CONCLUSIONS 296 REFERENCES 297 14 PREDICTION OF THE MECHANICAL PROPERTIES OF NANOCOMPOSITES 301 QINGHUA ZENG AND AIBING YU 14.1 INTRODUCTION 301 14.1.1 NANOCOMPOSITES 301 14.1.2 SOME ISSUES IN NANOCOMPOSITES 303 14.1.2.1 DISPERSION OF NANOPARTICLES 301 14.1.2.2 INTERFACE 303 14.1.2.3 CRYSTALLIZATION 303 14.1.3 PROPERTY PREDICTIONS 304 14.2 ANALYTICAL AND NUMERICAL TECHNIQUES 305 14.2.1 ANALYTICAL MODELS 305 14.2.1.1 RULE OF MIXTURES 305 14.2.1.2 HALPIN-TSAI MODEL 306 14.2.1.3 MORI-TANAKA MODEL 306 14.2.1.4 EQUIVALENT-CONTINUUM APPROACH 307 14.2.1.5 SELF-SIMILAR APPROACH 307 14.2.2 NUMERICAL METHODS 307 14.2.2.1 MOLECULAR DYNAMICS 308 14.2.2.2 MONTE CARLO 309 14.2.2.3 BROWNIAN DYNAMICS 309 14.2.2.4 DISSIPATIVE PARTICLE DYNAMICS 310 XII CONTENTS 14.3.2.2 14.3.2. 14.3.2. 14.3.2. 14.4 .3 .4 .5 FATIGUE 325 FRACTURE 325 WEAR 326 CREEP 327 CONCLUSIONS 327 ACKNOWLEDGMENTS 328 REFERENCES 329 15 MORPHOLOGY GENERATION IN POLYMER NANOCOMPOSITES USING VARIOUS LAYERED SILICATES 333 KENJI JAMURA AND HIROHISA YAMADA 15.1 INTRODUCTION 333 15.2 ASPECTS OF LAYERED SILICATES 334 15.2.1 GENERAL STRUCTURE 334 15.2.2 VARIOUS TYPES OF LAYERED SILICATES 335 15.3 CONVENTIONAL LAYERED SILICATE POLYMER NANOCOMPOSITES USING SMECTITE AND EXPANDABLE SYNTHETIC FLUORO-MICA 338 15.3.1 RELATIONSHIP BETWEEN MORPHOLOGY AND PROPERTIES 338 15.3.2 PROPERTIES OF CONVENTIONAL LAYERED SILICATE/POLYMER NANOCOMPOSITES 339 15.4 ASPECT RATIO VARIATION USING VARIOUS LAYERED SILICATES 344 15.4.1 EXFOLIATION OF HIGH CRYSTALLINITY NONEXPANDABLE MICA 344 15.4.2 CONTROLLING THE NUMBER OF NANOLAYERS (IN THE DISPERSED PLATELETS): INTERSTRATIFIED LAYERED SILICATE/POLYMER NANOCOMPOSITES 347 CONTENTS XIII 17.2.1.2 EFFECTS OF EXTRUDER CONFIGURATION AND SCREW PROFILES 374 17.2.1.3 EFFECT OF PROCESSING ROUTE 377 17.2.2 MELT-INTERCALATION OF POLYMER/CNT SYSTEMS 378 173 SOLUTION-INTERCALATION OF POLYMER NANOCOMPOSITES 380 17.4 PROGRESS IN POLYMER NANOCOMPOSITES PROCESSING 385 17.4.1 WATER INJECTION-ASSISTED MELT-COMPOUNDING 385 17.4.2 SUPERCRITICAL CO 2 -ASSISTED MELT-COMPOUNDING 388 17.4.3 ULTRASOUND-ASSISTED MELT-COMPOUNDING 391 17.5 PROCESSING OF THERMOSET NANOCOMPOSITES 394 17.6 CONCLUSIONS 399 REFERENCES 400 INDEX 407
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subject_GND	(DE-588)4768127-5 (DE-588)4763543-5
title	Optimization of polymer nanocomposite properties
title_auth	Optimization of polymer nanocomposite properties
title_exact_search	Optimization of polymer nanocomposite properties
title_full	Optimization of polymer nanocomposite properties ed. by Vikas Mittal
title_fullStr	Optimization of polymer nanocomposite properties ed. by Vikas Mittal
title_full_unstemmed	Optimization of polymer nanocomposite properties ed. by Vikas Mittal
title_short	Optimization of polymer nanocomposite properties
title_sort	optimization of polymer nanocomposite properties
topic	Nanostructured materials Nanostructured materials Properties Polymeric composites Polymeric composites Properties Nanokomposit (DE-588)4768127-5 gnd Organisch-anorganischer Hybridwerkstoff (DE-588)4763543-5 gnd
topic_facet	Nanostructured materials Nanostructured materials Properties Polymeric composites Polymeric composites Properties Nanokomposit Organisch-anorganischer Hybridwerkstoff
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