Verfügbarkeit: Synthetic polymer-polymer composites

Synthetic polymer-polymer composites:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Cincinnati, Ohio ; München Hanser 2012
Schlagworte:	Kohlenstoff-Nanoröhre Chemiefaser Chemiefaserverstärkter Kunststoff Mikrofaser Nanokomposit Kohlenstofffaser
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXIX, 797 S. Ill., graph. Darst. 25 cm
ISBN:	9781569905104 156990510X 9781569905258

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245	1	0	\|a Synthetic polymer-polymer composites \|c Debes Bhattacharyya ; Stoyko Fakirov
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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PART I INTRODUCTION CHAPTER 1 MANUFACTURING AND PROCESSING OF POLYMER COMPOSITES J. SCHUSTER, M. DUHOVIC, D. BHATTACHARYYA 1.1. INTRODUCTION 3 1.2. AUTOCLAVE-PROCESSING 5 1.2.1. INTRODUCTION 5 1.2.2. EQUIPMENT 5 1.2.3. LAMINATE ASSEMBLY 5 1.2.4. PROCESS DESCRIPTION 6 1.2.5. FURTHER DEVELOPMENTS 7 1.3. PULTRUSION 7 1.3.1. INTRODUCTION 7 1.3.2. EQUIPMENT 7 1.3.3. PROCESS DESCRIPTION 8 1.4. FILAMENT WINDING A N D PLACEMENT TECHNIQUES 10 1.4.1. FILAMENT WINDING 10 1.4.2. TAPE-LAYING 15 1.5. LIQUID COMPOSITE MOLDING 18 1.5.1. INTRODUCTION 18 1.5.2. LCM PROCESSES WITH SINGLE SIDED TOOLS 19 1.5.3. DOUBLE SIDED TOOL LCM PROCESSES 23 1.6. THERMOFORMING OF SEMIFINISHED THERMOPLASTIC COMPOSITE SHEETS 26 1.6.1. DOUBLE BELT PRESS FORMING 26 1.6.2. CONTINUOUS COMPRESSION MOLDING 26 1.6.3. ROLL FORMING 27 1.7. COMBINED FORMING PROCESSES 29 1.7.1. THERMOFORMING A N D INJECTION/COMPRESSION MOLDING 29 1.7.2. PULTRUSION/IMPREGNATION A N D ROLL FORMING 29 1.8. POST PROCESSING OF COMPOSITES 30 1.8.1. WELDING OF THERMOPLASTICS 31 1.9. CONCLUSIONS A N D OUTLOOK 32 REFERENCES: 32 HTTP://D-NB.INFO/1024138348 IMAGE 2 VIII CONTENTS CHAPTER 2 MELTING OF POLYMER-POLYMER COMPOSITES BY PARTICULATE HEATING PROMOTERS AND ELECTROMAGNETIC RADIATION T. BAYERL, A. BENEDITO BORRAS, J.-I. ANDRES GALLEGO, B. GALINDO GALIANA, P. MITSCHANG 2.1. INTRODUCTION 39 2.2. STATE OF THE A R T 40 2.2.1. INDUCTION HEATING 41 2.2.2. MICROWAVE HEATING 43 2.3. SELECTIVE MELTING USING PARTICULATE FILLERS 48 2.3.1. SELECTIVE MELTING BY INDUCTION 49 2.4. SELECTIVE MELTING BY MICROWAVE RADIATION 57 2.4.1. EFFECT OF DIFFERENT SUSCEPTOR MATERIALS 57 2.4.2. INFLUENCE OF DISPERSION QUALITY 60 2.5. CONCEPTS FOR AN INDUSTRIAL APPLICATION 61 2.6. CONCLUSIONS A N D OUTLOOK 62 ACKNOWLEDGEMENTS 63 REFERENCES 63 FURTHER READING 64 CHAPTER 3 INTER-PARTICLE DISTANCE AND TOUGHENING MECHANISMS IN PARTICULATE THERMOSETTING COMPOSITES H. S. KIM 3.1. INTRODUCTION 65 3.2. VARIOUS CONDITIONS FOR FRACTURE SURFACE MORPHOLOGY 66 3.3. INTER-PARTICLE/VOID DISTANCE A N D TOUGHENING MECHANISM 67 3.3.1. THEORETICAL INTER-PARTICLE DISTANCE 68 3.3.2. METHOD FOR INTER-PARTICLE DISTANCE MEASUREMENT 69 3.3.3. STATISTICAL PROPERTIES OF INTER-PARTICLE DISTANCE 74 3.3.4. EXPERIMENTAL INTER-VOID DISTANCE AND TOUGHNESS 81 3.4. TOUGHENING MECHANISMS IN T H E PRESENCE OF COMPRESSIVE STRESS AROUND PARTICLES/VOIDS 89 3.4.1. NECESSARY CONDITIONS FOR CAVITATION 89 3.4.2. GRAPHICAL UNDERSTANDING OF COMPRESSIVE STRESS AROUND PARTICLES 90 3.4.3. CREATING COMPRESSIVE STRESS AROUND MODIFIER PARTICLES AS A TOUGHENING METHOD 91 IMAGE 3 CONTENTS IX 3.4.4. PRODUCTION OF MECHANICAL TESTING SPECIMENS 92 3.4.5. MECHANICAL PROPERTIES OF TOUGHENED EPOXIES 93 3.4.6. FRACTURE SURFACE MORPHOLOGY EXAMINATION 93 3.4.7. STRESS INTENSITY FACTOR INFLUENCED BY COMPRESSIVE RESIDUAL STRESS 97 3.4.8. MOHR CIRCLE ANALYSIS FOR FRACTURE SURFACE MORPHOLOGY 100 3.4.9. INTERACTION OF TOUGHENING MECHANISMS 106 3.5. CONCLUSIONS I L L REFERENCES 112 PART II POLYMER-POLYMER COMPOSITES WITH PREMADE FIBROUS REINFORCEMENT CHAPTER 4 FRACTURE BEHAVIOR OF SHORT CARBON FIBER REINFORCED POLYMER COMPOSITES S. P. BAO, G. D. LIANG, S. C. TJONG 4.1. INTRODUCTION 119 4.2. DEFORMATION OF SCF-REINFORCED COMPOSITES 120 4.2.1. CARBON FIBER-POLYMER MATRIX INTERFACE 120 4.2.2. FIBER LENGTH 124 4.2.3. MATRIX MICROSTRUCTURE 126 4.2.4. FIBER ORIENTATION 128 4.3. FIBER HYBRIDIZATION 130 4.4. FRACTURE TOUGHNESS OF SCF-REINFORCED COMPOSITES 132 4.5. FATIGUE FAILURE * , 138 4.6. CONCLUSIONS AND OUTLOOK 141 REFERENCES 141 CHAPTER 5 POLYMER-CARBON NANOTUBE COMPOSITES: MELT PROCESSING, PROPERTIES AND APPLICATIONS S. PEGEL, T. VILLMOW. G. KASALIWAL, P. POTSCHKE 5.1. INTRODUCTION 145 5.2. MICROSCOPY BASED CHARACTERIZATION OF DISPERSION, DISTRIBUTION, AND ALIGNMENT OF NANOTUBES IN POLYMER MATRICES 148 5.2.1. LIGHT MICROSCOPY 148 5.2.2. TRANSMISSION ELECTRON MICROSCOPY 149 IMAGE 4 X CONTENTS 5.3. DISPERSION OF NANOTUBES BY MELT MIXING 150 5.3.1. THEORETICAL CONSIDERATIONS 150 5.3.2. SMALL-SCALE BATCH COMPOUNDING 153 5.3.3. TWIN-SCREW EXTFRUSION 162 5.4. MORPHOLOGY DEVELOPMENT DURING SHAPING 164 5.4.1. COMPRESSION MOLDING 165 5.4.2. INJECTION MOLDING 167 5.4.3. FIBER SPINNING 169 5.5. PROPERTIES AND APPLICATIONS 170 5.5.1. MECHANICAL REINFORCEMENT 170 5.5.2. ELECTRICAL CONDUCTIVITY 173 5.5.3. RESISTIVITY CHANGES DUE T O EXTERNAL STIMULI 179 5.5.4. FIRE RETARDANCY 181 5.6. CONCLUSIONS A N D OUTLOOK 182 ACKNOWLEDGMENTS 183 APPENDIX 183 REFERENCES 187 CHAPTER 6 MANUFACTURING AND ELECTRICAL PROPERTIES OF CARBON NANOTUBE REINFORCED POLYMER COMPOSITES G. D. LIANG, S. C. TJONG 6.1. INTRODUCTION 193 6.2. FUNCTIONALIZATION OF CARBON NANOTUBES 194 6.3. MANUFACTURING CARBON NANOTUBE/POLYMER COMPOSITES 196 6.3.1. SOLUTION MIXING 196 6.3.2. I N SITU POLYMERIZATION 199 6.3.3. MELT MIXING 200 6.3.5. ALIGNED CARBON NANOTUBE/POLYMER COMPOSITES 202 6.4. ELECTRICAL PROPERTIES OF POLYMER/CNT COMPOSITES 204 6.4.1. PERCOLATION THRESHOLD 204 6.4.2. CNT/THERMOPLASTIC NANOCOMPOSITES 205 6.4.3. CNT/ELASTOMER NANOCOMPOSITES 215 6.4.4. ALIGNED CNT/POLYMER COMPOSITES 216 6.5. CONCLUSION A N D OUTLOOK 219 REFERENCES 219 IMAGE 5 CONTENTS XI CHAPTER 7 FABRICATION, MORPHOLOGIES AND MECHANICAL PROPERTIES OF CARBON NANOTUBE BASED POLYMER NANOCOMPOSITES T. X. LIU, D. CHEN, W . W. TJIU 7.1. INTRODUCTION 225 7.2. CARBON NANOTUBES 226 7.2.1. W H A T IS CARBON NANOTUBE? 226 7.2.2. MECHANICAL PROPERTIES OF CARBON NANOTUBES 226 7.2.3. FUNCTIONALIZATION A N D ALIGNMENT OF CARBON NANOTUBES 227 7.3. FABRICATION OF POLYMER/CARBON NANOTUBE COMPOSITES 229 7.3.1. MELT COMPOUNDING 229 7.3.2. SOLUTION BLENDING 230 7.3.3. I N SITU POLYMERIZATION 230 7.3.4. OTHER FABRICATION METHODS 230 7.4. MECHANICAL PROPERTIES OF POLYMER/CARBON NANOTUBE COMPOSITES 231 7.4.1. SIMULATION RESULTS 231 7.4.2. EXPERIMENTAL RESULTS 231 7.5. CONCLUSIONS A N D OUTLOOK 241 ACKNOWLEDGEMENTS 243 REFERENCES 243 CHAPTER 8 MANUFACTURING AND PROPERTIES OF ARAMID REINFORCED COMPOSITES Z. DENCHEV, N. DENCHEVA 8.1. INTRODUCTION 251 8.2. ARAMID TYPES A N D MANUFACTURERS 252 8.3. SYNTHESIS OF ARAMIDS 253 8.4. COMMERCIAL FORMS OF ARAMIDS AND THEIR PHYSICAL PROPERTIES 255 8.5. STRUCTURE A N D PROPERTIES OF P-ARAMID FIBERS 258 8.6. PROPERTIES OF P- ARAMID FIBER REINFORCED POLYMER COMPOSITES 263 8.6.1. P- ARAMID F R P S WITH THERMOSET MATRICES 263 8.6.2. P-ARAMID F R P S WITH THERMOPLASTIC MATRICES 271 8.7. CONCLUDING REMARKS 274 ACKNOWLEDGEMENTS 275 REFERENCES 275 IMAGE 6 XII CONTENTS CHAPTER 9 MOLECULAR LIQUID CRYSTALLINE POLYMERS REINFORCED POLYMER COMPOSITES: THE CONCEPT OF HAIRY RODS C. FAKIROV 9.1. INTRODUCTION 281 9.1.1. RAPID PREPARATION TECHNOLOGIES TO EXCLUDE PHASE SEPARATION 282 9.1.2. ADVANCED SYNTHESIS TO OBTAIN A HOMOGENEOUS BLEND 283 9.1.3. HOMOGENEOUS MIXTURES BY INCREASED ENTHALPY: STRONG DIPOLE-DIPOLE INTERACTION, HYDROGEN BONDING AND IONIC INTERACTIONS 284 9.1.4. ADVANCED MOLECULAR STRUCTURE, CONSISTING OF RIGID AND FLEXIBLE SEGMENTS ... 284 9.1.5. ADVANCED MOLECULE STRUCTURE: RIGID STAR MOLECULES OR MULTIPODES 286 9.2. MOLECULAR COMPOSITES FROM HAIRY-ROD MOLECULES PREPARED VIA THE LANGMUIR-BLODGETT TECHNIQUE 286 9.2.1. SYNTHESIS OF HAIRY-ROD MOLECULES 287 9.2.2. PREPARATION OF CONSTRUCTS OF INTERNAL NANOSCALE ARCHITECTURE USING THE LANGMUIR-BLODGETT TECHNIQUE 288 9.2.3. SOME PROPERTIES OF MULTILAYERS OF HAIRY-ROD MACROMOLECULES 290 9.2.4. CONSTRUCTION OF NANOSCALED DEVICES AND FUNCTIONAL MATERIALS 292 9.3. CONCLUSIONS AND OUTLOOK 294 REFERENCES 294 CHAPTER 10 ELECTROSPUN COMPOSITE NANOFIBERS AND POLYMER COMPOSITES K. MOLNAR, L. M. VAS 10.1. INTRODUCTION 301 10.2. ELECTROSPINNING OF NANOFIBERS 303 10.2.1. PRINCIPLES OF ELECTROSPINNING 305 10.2.2. PROCESS OPTIMIZATION FOR GAINING ULTRAFINE NANOFIBERS 311 10.3. INDUSTRIALIZATION A T T E M P T S FOR PRODUCING ELECTROSPUN MATERIALS IN A HIGH VOLUME 312 10.3.1. MODIFIED SPINNERETS FOR HIGHER OUTPUTS 312 10.3.2. MODIFIED COLLECTOR SYSTEMS FOR PRODUCING SPECIAL ELECTROSPUN STRUCTURES .... 316 10.4. COMPOSITE NANOFIBERS . 321 10.4.1. TESTING AND MODELING THE MECHANICAL BEHAVIOR OF NANOFIBERS FOR COMPOSITE APPLICATIONS 321 10.4.2. COMPOSITE NANOFIBERS INCORPORATED WITH SMALLER NANOPARTICLES 324 10.4.3. CORE-SHELL NANOFIBERS PREPARED BY COAXIAL ELECTROSPINNING 327 10.5. SYNTHETIC POLYMER-POLYMER COMPOSITES CONTAINING OR BASED ON ELECTROSPUN NANOFIBERS 330 IMAGE 7 CONTENTS XIII 10.5.1. NANOFIBERS AS INTERLAMINAR REINFORCEMENT OF COMPOSITES 330 10.5.2. ELECTROSPUN NANOFIBERS AND THEIR MODIFICATIONS AS POTENTIAL REINFORCEMENT OF POLYMER-POLYMER COMPOSITES 334 10.6. CONCLUSIONS AND OUTLOOK 341 ACKNOWLEDGEMENTS 341 REFERENCES 342 PART III I N S I T U NANO- AND MICROFIBRILLAR POLYMER-POLYMER COMPOSITES CHAPTER 11 THE CONCEPT OF MICRO- OR NANOFIBRILS REINFORCED POLYMER-POLYMER COMPOSITES S. FAKIROV 11.1. INTRODUCTION: A BRIEF HISTORICAL OVERVIEW 353 11.2. PREPARATION OF M F C 357 11.2.1. MISCIBILITY A N D COMPATIBILITY IN POLYMER BLENDS 357 11.3. MECHANISM OF MICROFIBRILS FORMATION IN POLYMER BLENDS A N D EFFECT OF THE COMPATIBILIZERS ON THIS PROCESS 363 11.4. MICROFIBRILLAR COMPOSITES FROM BLENDS OF CONDENSATION POLYMERS 367 11.4.1. PECULIARITIES OF MFCS PREPARED FROM BLENDS OF CONDENSATION POLYMERS 368 11.4.2. MECHANICAL PROPERTIES OF MFCS PREPARED FROM BLENDS OF CONDENSATION POLYMERS 369 11.5. MICROFIBRILLAR COMPOSITES FROM BLENDS OF CONDENSATION POLYMERS WITH POLYOLEFINS 371 11.6. NANOFIBRILS REINFORCED COMPOSITES FROM POLYMER BLENDS 376 11.6.1. PECULIARITIES OF POLYMER NANOCOMPOSITES 376 11.6.2. MANUFACTURING OF NANOFIBRILLAR POLYMER-POLYMER COMPOSITES 377 11.6.4. MECHANICAL PROPERTIES OF NFCS 379 11.7. EFFECT OF FIBRILS ORIENTATION ON T H E MECHANICAL PERFORMANCE OF MFCS A N D N F C S 381 11.8. OPPORTUNITIES ARISING FROM THE MFC CONCEPT 387 11.8.1. COMMERCIAL POTENTIALS OF T H E M F C CONCEPT IN THE AUTOMOTIVE INDUSTRY .... 388 11.8.2. COMMERCIAL POTENTIALS OF THE M F C CONCEPT FOR COMMODITY PURPOSES 388 11.8.3. POTENTIAL OF THE M F C CONCEPT FOR BIOMEDICAL APPLICATIONS 390 11.9. CONCLUSIONS AND OUTLOOK 393 ACKNOWLEDGMENTS 394 REFERENCES 394 IMAGE 8 XIV CONTENTS CHAPTER 12 MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES V I A HOT STRETCHING: PREPARATION, STRUCTURE AND PROPERTIES Y. H. CHEN, G. J. ZHONG, Z. M. LI 12.1. INTRODUCTION 401 12.2. FABRICATION OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 402 12.2.1. RHEOLOGICAL FUNDAMENTAL FOR DEFORMATION OF DISPERSED PHASE 402 12.2.2. PREPARATION OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 403 12.3. THREE PRIMARY FACTORS AFFECTING I N SITU FIBRILLATION 406 12.3.1. COMPOSITION 407 12.3.2. HOT STRETCH RATIO 409 12.3.3. VISCOSITY RATIO 410 12.4. MECHANICAL PROPERTIES OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 411 12.5. RHEOLOGICAL PROPERTIES OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 415 12.5.1. RHEOLOGY-COMPOSITION RELATIONSHIP OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 415 12.5.2. RHEOLOGY-MORPHOLOGY RELATIONSHIP OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES .-. 418 12.6. CRYSTALLIZATION PROPERTY AND CRYSTAL STRUCTURE OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 419 12.6.1. CRYSTALLIZATION KINETICS OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 419 12.6.2. CRYSTAL STRUCTURES OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 421 12.6.3. CRYSTALLINE MORPHOLOGY A N D AGGREGATES OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES 423 12.7. APPLICATION OF MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITES CONCEPT 426 12.7.1. RECYCLING OF THERMOPLASTIC BLENDS 426 12.7.2. SUPPRESSION OF SKIN-CORE STRUCTURE IN INJECTION MOLDED POLYMER PARTS VIA I N SITU MICROFIBRILS 430 12.8. CONCLUSIONS 432 ACKNOWLEDGEMENTS 433 REFERENCES 433 IMAGE 9 CONTENTS X V CHAPTER 13 MICROFIBRIL REINFORCED POLYMER-POLYMER COMPOSITE V I A HOT STRETCHING: ELECTRICALLY CONDUCTIVE FUNCTIONALIZATION Y. C. ZHANG, Z. M. LI 13.1. INTRODUCTION 437 13.2. ISOTROPICALLY CONDUCTIVE POLYMER COMPOSITE 438 13.2.1. ISOTROPIC I - C B / P E T / P E 438 13.2.2. ISOTROPIC O - C B / P E T / P E 447 13.3. ANISOTROPICALLY CONDUCTIVE POLYMER COMPOSITE 451 13.3.1. PREPARATION AND TYPICAL MORPHOLOGY 451 13.3.2. T H E PERCOLATION BEHAVIOR 452 13.3.3. T H E RESISTIVITY-TEMPERATURE BEHAVIOR 454 13.4. CONCLUSIONS 460 ACKNOWLEDGMENTS 460 REFERENCES 461 CHAPTER 14 PREPARATION, MECHANICAL PROPERTIES AND STRUCTURAL CHARACTERIZATION OF MICROFIBRILLAR COMPOSITES BASED ON POLYETHYLENE/POLYAMIDE BLENDS Z. DENCHEV, N. DENCHEVA 14.1. INTRODUCTION 465 14.2. PREPARATION AND MORPHOLOGY OF MICROFIBRILLAR COMPOSITES 468 14.3. MECHANICAL CHARACTERIZATION OF P E / P A MICROFIBRILLAR COMPOSITES 472 14.3.1. TENSILE TESTS WITH H D P E / P A 6 SYSTEMS 472 14.3.2. T H E FLEXURAL TESTS 479 14.3.3. T H E IMPACT TESTS 482 14.3.4. A COMPARISON BETWEEN THE MECHANICAL PROPERTIES OF PA6 A N D PA12 MFCS 484 14.4. STRUCTURE-PROPERTIES RELATION IN MICROFIBRILLAR COMPOSITES 486 14.4.1. MICROSCOPY STUDIES OF H D P E / P A 6 A N D H D P E / P A 1 2 SYSTEMS 490 14.4.2. SYNCHROTRON X-RAY STUDIES OF H D P E / P A 6 A N D H D P E / P A 1 2 M F C 499 14.5. CONCLUSIONS A N D OUTLOOK 517 ACKNOWLEDGEMENTS 518 REFERENCES 519 IMAGE 10 XVI CONTENTS CHAPTER 15 MICROFIBRILS REINFORCED COMPOSITES BASED ON PP AND PET: EFFECT OF DRAW RATIO ON MORPHOLOGY, STATIC AND DYNAMIC MECHANICAL PROPERTIES, CRYSTALLIZATION AND RHEOLOGY K. JAYANARAYANAN, K. JOSEPH, S. THOMAS 15.1. INTRODUCTION 525 15.2. EXPERIMENTAL DETAILS: MATERIALS AND PROCEDURES 528 15.3. SAMPLE CHARACTERIZATION 532 15.3.1. MORPHOLOGY DEVELOPMENT 532 15.3.2. STATIC MECHANICAL PROPERTIES 537 15.3.3. DYNAMIC MECHANICAL ANALYSIS 539 15.3.4. CRYSTALLIZATION 545 15.3.5. DYNAMIC RHEOLOGY 551 15.4. CONCLUSIONS A N D OUTLOOK 555 REFERENCES 557 CHAPTER 16 STRUCTURAL AND MECHANICAL CHARACTERIZATION OF THE REINFORCEMENT AND PRECURSORS OF MICRO- AND NANOFIBRILS REINFORCED POLYMER-POLYMER COMPOSITES N. STRIBECK, D. BHATTACHARYYA, S. FAKIROV 16.1. INTRODUCTION 563 16.1.1. MONITORING STRUCTURE VARIATION IN POLYMER-POLYMER COMPOSITES 563 16.1.2. PROGRESS IN X-RAY SCATTERING 564 16.1.3. PROGRESS IN METHODS FOR THE ANALYSIS OF SCATTERING D A T A 565 16.2. PRACTICE OF EXPERIMENT AND D A T A ANALYSIS 565 16.3. WAXD FIBER MAPPING 566 16.3.1. MOTIVATION AND METHOD DESIGN 566 16.3.2. ACTIONS REQUIRED BY THE USER 566 16.3.3. AUTOMATED MAPPING 568 16.3.4. APPLICATION 568 16.4. X-RAY SCATTERING FIBER TOMOGRAPHY 569 16.4.1. MOTIVATION 569 16.4.2. INTRODUCTION OF T H E METHOD 571 16.4.3. APPLICATIONS 574 16.5. SAXS MONITORING OF MECHANICAL TESTS 576 16.5.1. MOTIVATION AND METHOD DEVELOPMENT 576 16.5.2. RESULTS 576 IMAGE 11 CONTENTS XVII 16.6. COMBINING TIME RESOLUTION A N D SPATIAL RESOLUTION 582 16.7. CONCLUSIONS A N D OUTLOOK 583 ACKNOWLEDGMENT 584 REFERENCES 584 CHAPTER 17 APPLICATION OPPORTUNITIES OF THE MICROFIBRIL REINFORCED COMPOSITE CONCEPT R. J. SHIELDS, D. BHATTACHARYYA, S. FAKIROV 17.1. INTRODUCTION 589 17.2. BARRIER PROPERTIES OF POLYMER BLENDS A N D COMPOSITES 592 17.2.1. THEORETICAL ASPECTS OF PERMEABILITY 593 17.2.2. HOW CRYSTALLINITY AFFECTS PERMEABILITY 594 17.3. M F C APPLICATION OPPORTUNITIES AS PACKAGING WITH IMPROVED BARRIER PROPERTIES 595 17.4. M F C PERMEATION EXPERIMENTS 596 17.4.1. EXPERIMENTAL SETUP 596 17.4.2. PRELIMINARY PERMEATION EXPERIMENTS 596 17.4.3. M F C PERMEABILITY INVESTIGATION 598 17.4.4. MECHANICAL PROPERTIES 604 17.5. M F C PERMEABILITY MODELING 604 17.6. APPLICATION OPPORTUNITIES IN VEHICLE MANUFACTURING 609 17.7. APPLICATIONS FOR BIOMEDICAL PURPOSES 611 17.8. OTHER APPLICATIONS OF T H E M F C CONCEPT 620 17.8.1. RECYCLING OF BLENDED PLASTIC WASTE STREAMS 620 17.8.2. ELECTROCONDUCTIVE MATERIALS 621 17.9. CONCLUSIONS A N D OUTLOOK 622 ACKNOWLEDGEMENTS 623 REFERENCES 623 CHAPTER 18 POLYLACTIDE BASED BIO-RESORBABLE BONE NAILS: IMPROVEMENTS OF STRENGTH AND STIFFNESS BY MICROFIBRILLAR REINFORCEMENT K. FRIEDRICH, J. HOFFMANN, A. A. ALMAJID, M. EVSTATIEV 18.1. INTRODUCTION 627 18.2. MATERIALS, PREPARATION, A N D CHARACTERIZATION 629 18.2.1. MATERIALS USED 629 18.2.2. SPECIMEN CHARACTERIZATION 630 18.2.3. M F C PREPARATION 630 IMAGE 12 XVIII CONTENTS 18.3. MORPHOLOGY AND MECHANICAL PROPERTIES 635 18.3.1. MORPHOLOGY OF THE SAMPLES 635 18.3.2. MECHANICAL PROPERTIES 637 18.4. CONCLUSIONS 640 ACKNOWLEDGEMENTS 640 REFERENCES 640 PART IV SINGLE POLYMER COMPOSITES CHAPTER 19 MICRO- AND NANOFIBRILLAR SINGLE POLYMER COMPOSITES M. DUHOVIC, S. FAKIROV, R. HOLSCHUH, P. MITSCHANG, D. BHATTACHARYYA 19.1. INTRODUCTION 643 19.2. PRODUCING POLYMERIC MICRO- AND NANOFIBERS 644 19.2.1. MELT BLOWING 645 19.2.2. ELECTROSPINNING 646 19.2.3. BICOMPONENT MELT SPINNING . 647 19.3. MECHANICAL PROPERTIES OF POLYMER MICRO- A N D NANOFIBERS 649 19.3.1. CHARACTERIZATION AND MODELING OF THE MECHANICAL PROPERTIES 649 19.4. MANUFACTURING ROUTES FOR MICRO- A N D NANO-SPC MATERIALS 650 19.4.1. I N SITU CREATION OF POLYMER MICRO- A N D NANOFIBRILS 651 19.4.2. REACTIVE PROCESS I N SITU COPOLYMERIZATION METHOD 653 19.4.3. HOT-COMPACTION METHOD 655 19.4.4. FILM STACKING METHOD 656 19.4.5. RESIN INFUSION METHOD 656 19.4.6. OVERHEATING METHOD 656 19.4.7. CO-EXTRUSION METHOD 656 19.5. COMMERCIALLY AVAILABLE SPC MATERIALS 657 19.5.1. CURV 657 19.5.2. PURE 659 19.5.3. PARA-LITE P P 659 19.5.4. ARMORDON 659 19.5.5. KAYPLA 660 19.5.6. COMFIL SPCS AND INJECTION MOLDABLE SPC PELLETS (ESPRI PROJECT) 660 19.6. CASE STUDIES 661 19.6.1. SPCS BY I N SITU CREATION OF NANOFIBRILS AND H O T COMPACTION 661 19.6.2. SPCS BY MELT SPINNING AND I N SITU COPOLYMERIZATION 665 19.7. SUMMARY AND OUTLOOK 667 REFERENCES 667 IMAGE 13 CONTENTS X I X CHAPTER 20 POLYMORPHISM- AND STEREOREGULARITY-BASED SINGLE POLYMER COMPOSITES J. KARGER-KOCSIS, S. FAKIROV 20.1. INTRODUCTION 673 20.1.1. DEFINITIONS 674 20.1.2. PREPARATION OF SINGLE POLYMER COMPOSITES 675 20.2. STEREOREGULARITY, CRYSTALLIZATION AND POLYMORPHISM IN POLYMERS 677 20.2.1. STEREOREGULARITY OF MACROMOLECULES 678 20.2.2. CRYSTALLIZATION OF POLYMERS 679 20.2.3. POLYMORPHISM IN POLYMERS 680 20.3. AMORPHOUS MATRIX WITH AMORPHOUS REINFORCEMENT 682 20.3.1. SINGLE POLYMER MICROCOMPOSITES 682 20.3.2. SINGLE POLYMER NANOCOMPOSITES 683 20.4. AMORPHOUS MATRIX WITH SEMICRYSTALLINE REINFORCEMENT 683 20.4.1. SINGLE POLYMER MICROCOMPOSITES 684 20.4.2. SINGLE POLYMER NANOCOMPOSITES 684 20.5. SEMICRYSTALLINE MATRIX WITH SEMICRYSTALLINE REINFORCEMENT 685 20.5.1. SINGLE POLYMER MICROCOMPOSITES 685 20.5.2. SINGLE POLYMER NANOCOMPOSITES 691 20.6. APPLICATIONS OF SPCS 694 20.7. OUTLOOK A N D FUTURE TRENDS 694 ACKNOWLEDGEMENTS 695 REFERENCES 695 CHAPTER 21 LAYERED POLYMER-POLYMER COMPOSITE WITH NANOCOMPOSITE AS REINFORCEMENT W. H. RUAN, T. CZIGANY, T. BARANY, M. Z. RONG, M. Q. ZHANG 21.1. INTRODUCTION . 699 21.2. GRAFT POLYMERIZATION ONTO NANOPARTICLES 700 21.3. ORIENTED P P REINFORCEMENTS FILLED WITH NANO-SI0 2 702 21.4. MANUFACTURING A N D CHARACTERIZATION OF P P HOMOPOLYMER-PP COPOLYMER COMPOSITE WITH NANOCOMPOSITE AS REINFORCEMENT 711 21.5. CONCLUSIONS 715 ACKNOWLEDGEMENT 716 REFERENCES 716 IMAGE 14 X X CONTENTS CHAPTER 22 MANUFACTURING OF SELF-REINFORCED ALL-PP COMPOSITES A. BLEDZKI, H.-P. HEIM, D. PABMANN, A. RIES 22.1. INTRODUCTION 719 22.2. SELF-REINFORCED THERMOPLASTIC FIBER COMPOSITE MATERIALS 719 22.3. MANUFACTURING CONCEPT A N D COMPOSITE STRUCTURE 721 22.3.1. PRIMARY SHAPING 721 22.3.2. SEMIFINISHED PRODUCT MANUFACTURING 722 22.3.3. COMPACTION A N D MOLDING 723 22.3.4. COMPOSITE STRUCTURE 723 22.4. T H E PROCESSING TECHNOLOGY OF HOT-COMPACTION 724 22.4.1. PREHEATING 724 22.4.2. COMPACTION 724 22.4.3. COOLING 726 22.5. MOLDING STRATEGIES 726 22.5.1. THERMOFORMING HOT-COMPACTED SEMIFINISHED PLATE PRODUCTS 727 22.5.2. COMPRESSION MOLDING IN COMBINATION WITH T H E HOT-COMPACTION OF SEMIFINISHED TEXTILE PRODUCTS 728 22.6. PROPERTY SPECTRUM OF S R - P P COMPOSITES 729 22.7. FIELDS OF APPLICATION FOR SELF-REINFORCED ORGANIC SHEETS MADE OF P P 732 22.8. CONCLUSIONS AND OUTLOOK 734 ACKNOWLEDGEMENT 734 REFERENCES 734 CHAPTER 23 SINGLE POLYMER COMPOSITES V I A SHEAR CONTROLLED ORIENTATION INJECTION MOLDING (SCORIM) OR OSCILLATING PACKING INJECTION MOLDING (OPIM) TECHNIQUES J. LEI, Z.-M. LI 23.1. INTRODUCTION 739 23.2. SELF-REINFORCED POLYETHYLENE BY SCORIM TECHNIQUES 743 23.3. SELF-REINFORCED POLYPROPYLENE BY SCORIM TECHNIQUES 755 23.4. OTHER POLYMER COMPOSITES REINFORCED BY SCORIM TECHNIQUES 764 23.5. CONCLUSIONS AND OUTLOOK 765 REFERENCES 765 LIST OF ACKNOWLEDGEMENTS 769 AUTHOR INDEX 781 SUBJECT INDEX 785
any_adam_object	1
author_GND	(DE-588)115146210
building	Verbundindex
bvnumber	BV040373139
classification_rvk	ZM 7020
classification_tum	WER 443f
ctrlnum	(OCoLC)808723967 (DE-599)DNB1024138348
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dewey-sort	3668.494
dewey-tens	660 - Chemical engineering
discipline	Chemie / Pharmazie Maschinenbau / Maschinenwesen Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik
format	Book
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id	DE-604.BV040373139
illustrated	Illustrated
indexdate	2024-07-10T00:22:45Z
institution	BVB
isbn	9781569905104 156990510X 9781569905258
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-025226712
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owner_facet	DE-92 DE-12 DE-91G DE-BY-TUM DE-210 DE-83 DE-29T DE-573
physical	XXIX, 797 S. Ill., graph. Darst. 25 cm
publishDate	2012
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spelling	Synthetic polymer-polymer composites Debes Bhattacharyya ; Stoyko Fakirov Cincinnati, Ohio ; München Hanser 2012 XXIX, 797 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd rswk-swf Chemiefaser (DE-588)4069934-1 gnd rswk-swf Chemiefaserverstärkter Kunststoff (DE-588)4147617-7 gnd rswk-swf Mikrofaser (DE-588)4568602-6 gnd rswk-swf Nanokomposit (DE-588)4768127-5 gnd rswk-swf Kohlenstofffaser (DE-588)4128150-0 gnd rswk-swf Chemiefaserverstärkter Kunststoff (DE-588)4147617-7 s Kohlenstofffaser (DE-588)4128150-0 s Chemiefaser (DE-588)4069934-1 s Nanokomposit (DE-588)4768127-5 s Kohlenstoff-Nanoröhre (DE-588)4581365-6 s Mikrofaser (DE-588)4568602-6 s DE-604 Bhattacharyya, Debes Sonstige oth Fakirov, Stoyko 1936- Sonstige (DE-588)115146210 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025226712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Synthetic polymer-polymer composites Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd Chemiefaser (DE-588)4069934-1 gnd Chemiefaserverstärkter Kunststoff (DE-588)4147617-7 gnd Mikrofaser (DE-588)4568602-6 gnd Nanokomposit (DE-588)4768127-5 gnd Kohlenstofffaser (DE-588)4128150-0 gnd
subject_GND	(DE-588)4581365-6 (DE-588)4069934-1 (DE-588)4147617-7 (DE-588)4568602-6 (DE-588)4768127-5 (DE-588)4128150-0
title	Synthetic polymer-polymer composites
title_auth	Synthetic polymer-polymer composites
title_exact_search	Synthetic polymer-polymer composites
title_full	Synthetic polymer-polymer composites Debes Bhattacharyya ; Stoyko Fakirov
title_fullStr	Synthetic polymer-polymer composites Debes Bhattacharyya ; Stoyko Fakirov
title_full_unstemmed	Synthetic polymer-polymer composites Debes Bhattacharyya ; Stoyko Fakirov
title_short	Synthetic polymer-polymer composites
title_sort	synthetic polymer polymer composites
topic	Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd Chemiefaser (DE-588)4069934-1 gnd Chemiefaserverstärkter Kunststoff (DE-588)4147617-7 gnd Mikrofaser (DE-588)4568602-6 gnd Nanokomposit (DE-588)4768127-5 gnd Kohlenstofffaser (DE-588)4128150-0 gnd
topic_facet	Kohlenstoff-Nanoröhre Chemiefaser Chemiefaserverstärkter Kunststoff Mikrofaser Nanokomposit Kohlenstofffaser
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025226712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT bhattacharyyadebes syntheticpolymerpolymercomposites AT fakirovstoyko syntheticpolymerpolymercomposites

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