Verfügbarkeit: Practical rubber rheology and dynamic properties

Practical rubber rheology and dynamic properties:

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Bibliographische Detailangaben
Hauptverfasser:	Dick, John S. 1945- (VerfasserIn), Pawlowski, Henry (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Munich Hanser [2023]
Schlagworte:	Viskosimetrie Kautschuk Rheologie Dynamisches Verhalten Rheologische Eigenschaft Kautschukindustrie FBKTKAUT: Elastomere und Kautschuk PLAS2020
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 368 Seiten Illustrationen, Diagramme 25 cm
ISBN:	9781569906170

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Datensatz im Suchindex

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adam_text	THE AUTHORS V PREFACE . VII 1 OVERVIEW OF RUBBER RHEOLOGY AND DYNAMIC PROPERTY TESTS . 1 1.1 INTRODUCTION TO THE UNIQUENESS OF RUBBER RHEOLOGY . 1 1.2 BASIC TENSILE TESTING . 3 1.3 HARDNESS TESTING . 5 1.4 DENSITY . 6 1.5 MOONEY VISCOSITY . 7 1.6 ODR CUREMETER . 10 1.7 CAPILLARY RHEOMETER . 12 1.8 MOVING DIE RHEOMETER (MDR) . 13 1.9 RUBBER PROCESS ANALYZER (RPA) . 15 1.10 DYNAMIC MECHANICAL ANALYZER (DMA) . 16 1.11 FLEX FATIGUE TESTERS . 18 1.12 FLEXOMETER DELTA T . 19 1.13 MEASURING DISPERSION . 20 1.14 OTHER RELEVANT RUBBER TESTS . 22 1.14.1 COMPRESSION PLASTIMETERS . 22 1.14.2 TEAR PROPERTIES . 23 1.14.3 ELECTRICAL CONDUCTIVITY PROPERTIES . 24 1.14.4 DIFFERENTIAL SCANNING CALORIMETRY (DSC) . 24 1.14.5 THERMOGRAVIMETRIC ANALYSIS (TGA) . 25 1.14.6 FOURIER TRANSFORM INFRARED SPECTROSCOPY (FTIR) . 26 1.14.7 ATTENUATED TOTAL REFLECTANCE (ATR) . 28 1.14.8 GEL PERMEATION CHROMATOGRAPHY (GPC) . 28 1.14.9 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY (NMR) . 28 1.14.10 BET (BRUNAUER, EMMETT, AND TELLER) NITROGEN ADSORPTION SURFACE AREA APPARATUS . 29 1.14.11 THERMAL CONDUCTIVITY METERS . 29 2 MOONEY VISCOMETER . 35 2.1 DESCRIPTION OF THE MOONEY VISCOMETER . 35 2.2 MOONEY TESTS . 37 2.3 MOONEY VISCOSITY . 37 2.4 MEASURING MOONEY SCORCH . 42 2.5 MEASURING MOONEY STRESS RELAXATION . 46 2.6 DELTA MOONEY TEST FOR OIL EXTENDED EMULSION SBR . 48 2.7 VARIABLE SPEED MOONEY . 49 2.8 LIMITATIONS OF THE MOONEY VISCOMETER . 51 3 CAPILLARY RHEOMETER . 55 3.1 INTRODUCTION . 55 3.2 BASIC TYPES OF CAPILLARY RHEOMETERS . 57 3.3 MEASUREMENT OF VISCOSITY WITH A CAPILLARY RHEOMETER . 58 3.4 TYPES OF CAPILLARY RHEOMETER TESTS . 59 3.4.1 STABILITY TEST . 60 3.4.2 SHEAR RATE SWEEP . 61 3.4.3 MEASURE OF TRUE VISCOSITY WITH CAPILLARY RHEOMETERS BY USING CORRECTIONS . 63 3.4.3.1 BAGLEY CORRECTION . 63 3.4.3.2 RABINOWITSCH CORRECTION . 64 3.4.4 CAPILLARY RHEOMETER WALL SLIPPAGE . 64 3.5 BEHAVIOR OF NON-NEWTONIAN MATERIALS . 65 3.6 APPEARANCE OF CAPILLARY RHEOMETER EXTRUDATE . 69 3.7 CAPILLARY RHEOMETRY IN FACTORY PROBLEM SOLVING . 71 3.8 PREDICTION OF FACTORY PROCESSABILITY WITH CAPILLARY RHEOMETERS . 72 3.9 LIMITATIONS OF CAPILLARY RHEOMETERS IN RUBBER TESTING . 74 4 CUREMETERS . 77 4.1 OSCILLATING DISC RHEOMETER . 77 4.2 MOVING DIE RHEOMETER . 79 4.3 ASTM D2084 AND D5289 DATA POINTS FOR CUREMETERS . 84 4.4 DYNAMIC PROPERTIES MEASURED WITH AN MDR . 87 4.5 ASTM AND ISO STANDARDS FOR CUREMETERS AND THE SELECTION OF TEST CONDITIONS . 92 4.6 THE RPA AS A CUREMETER . 94 4.6.1 DESCRIPTION OF THE RPA AS A CUREMETER . 94 4.6.2 USING RPA DYNAMIC DATA FOR ANALYZING CURE CURVES . 94 4.6.2.1 TMAXS DURING CURE (TIME TO S" PEAK) . 94 4.6.2.2 S' AND S" DUE TO CROSSLINK DENSITY . 96 4.6.2.3 S' AND S" DUE TO FILLER LOADING . 97 4.6.3 EFFECT OF OIL . 99 5 VISCOELASTIC CHARACTERIZATION OF RUBBER . 101 5.1 INTRODUCTION TO THE VISCOELASTIC PROPERTY . 101 5.2 PURE ELASTICITY . 101 5.3 PURE VISCOSITY . 103 5.4 MODELING VISCOSITY . 106 5.5 VISCOELASTIC PROPERTIES . 107 5.6 MEASUREMENT OF VISCOELASTIC PROPERTIES WITH SINUSOIDAL DEFORMATION . 110 5.7 APPLICATIONS FOR VISCOELASTIC PROPERTIES . 114 5.8 INSTRUMENTS WITH MULTIPLE TEST CAPABILITIES . 114 5.9 RPA TEST CONDITIONS . 123 5.10 THE ADVANTAGES OF THE RPA OVER SCIENTIFIC DMAS . 125 5.11 THE BASICS OF MEASURING AND CALCULATING DYNAMIC MODULI . 128 5.12 THE BASICS OF MEASURING AND CALCULATING DYNAMIC VISCOSITY . 132 5.13 COMPLIANCE . 136 5.14 EXTENSION/COMPRESSION MODULUS AND COMPLIANCE . 137 5.15 SPRING RATE CONSTANTS AND DAMPING COEFFICIENTS . 140 5.16 TIME TEMPERATURE SUPERPOSITIONING (TTS) . 142 5.17 STATISTICAL EVALUATION OF RHEOMETERS . 145 6 TYPES OF RUBBER RPA RHEOLOGICAL TESTS . 151 6.1 SUMMARY OF RPA RHEOLOGICAL DATA . 151 6.2 TYPES OF RPA RHEOLOGICAL SUBTESTS . 152 6.2.1 TIMED . 152 6.2.2 TEMPERATURE SWEEP . 154 6.2.3 VTA (THERMAL RAMP) . 157 6.2.4 FREQUENCY SWEEP . 159 6.2.5 STRAIN SWEEP: LOW . 161 6.2.6 STRAIN SWEEP: HIGH . 163 6.2.7 MATRIX . 165 6.2.8 LAOS SWEEP . 165 6.2.9 STRESS RELAXATION . 169 6.3 ASTM, ISO, AND DIN STANDARD METHODS FOR RPA TESTING OF ELASTOMERS AND COMPOUNDS . 170 6.3.1 ASTM D6204 PART A . 170 6.3.2 ASTM D6204 PART B . 172 6.3.3 ASTM D6204 PARTC . 172 6.3.4 ASTM D6204AB FOR R&D . 174 6.3.5 ASTM D6601 . 175 6.3.6 ASTMD8059 . 177 6.3.7 ASTMD6048 . 179 6.3.8 ASTM D7050 . 181 6.3.9 ASTM D7605 . 182 6.3.10 ASTM D5289 . 184 6.3.11 DIN 53529 . 184 6.3.12 ISO 13145 . 185 6.4 NONSTANDARD METHODS FOR RPA TESTING OF ELASTOMERS AND COMPOUNDS . 186 6.4.1 DISPERSION USING DYNAMIC MECHANICAL METHODS . 186 6.4.2 MULTIPLE FREQUENCY SWEEPS WITH INCREASING STRAINS . 187 6.4.3 MULTIPLE IDENTICAL STRAIN SWEEPS . 188 6.4.4 ANAEROBIC HEAT AGING . 189 6.4.5 AEROBIC HEAT AGING . 189 6.4.6 VISCOUS HEATING OF UNCURED RUBBER COMPOUNDS . 190 6.4.7 HEAT BUILDUP AT FOR CURED RUBBER COMPOUND . 191 7 RAW RUBBER EFFECTS ON PROCESSABILITY . 195 7.1 NATURAL RUBBER . 195 7.2 SYNTHETIC RAW RUBBER . 201 7.2.1 AVERAGE MOLECULAR WEIGHT . 203 7.2.2 MOLECULAR WEIGHT DISTRIBUTION . 205 7.2.3 LONG CHAIN BRANCHING . 207 7.2.4 GEL . 209 7.2.5 CHANGES IN THE CHEMICAL COMPOSITION . 210 7.2.6 STATISTICAL CONFOUNDING . 212 7.3 HIGH STRAIN TESTING OF SYNTHETIC ELASTOMERS . 213 7.4 MEASURING IMPARTED DIFFERENCES IN SHEAR THINNING PROPERTIES . 214 7.5 STRESS RELAXATION OF ELASTOMERS AND PROCESSABILITY . 215 7.6 MASTER CURVE AND GLASS TRANSITION TEMPERATURE . 217 7.7 WLF SHIFTS FOR RAW ELASTOMERS . 220 7.8 TESTING LIQUID ELASTOMERS . 221 7.9 TESTING THERMOPLASTIC ELASTOMERS (TPE) . 223 7.10 PROCESSABILITY DATA ANALYSIS . 224 8 FILLER EFFECTS ON RUBBER COMPOUND PROCESSABILITY . 229 8.1 FILLER EFFECTS ON RUBBER COMPOUND PROPERTIES . 229 8.2 CARBON BLACK EFFECTS . 232 8.2.1 CARBON BLACK SURFACE AREA . 234 8.2.2 CORRELATION WITH CARBON BLACK STRUCTURE . 240 8.2.3 CORRELATION WITH CARBON BLACK SURFACE ACTIVITY . 245 8.2.4 EFFECTS OF VARIATION IN LOADING ON UNCURED VS. CURED DYNAMIC PROPERTIES . 246 8.3 OIL EFFECTS . 249 8.4 SILICA EFFECTS . 254 8.4.1 EFFECTS OF SILANIZATION . 254 8.4.2 EFFECTS OF SILICA SURFACE AREA . 256 8.4.3 EFFECTS OF SILICA LOADING . 257 8.4.4 RECOVERY OF THE SILICA NETWORK AFTER DESTRUCTION . 258 8.4.5 SPECIAL ROLE OF STRUCTURE FOR SILICA . 259 8.5 EFFECTS OF FULLY REINFORCING FILLERS ON THE COX-MERZ CORRELATION . 261 8.6 EFFECTS OF FILLER TYPE AND CONCENTRATION ON SHEAR THINNING PROFILES . 262 8.7 EFFECTS OF FILLER ROOM TEMPERATURE STORAGE ON FORMATION OF BOUND RUBBER AND RHEOLOGY OF FILLED RUBBER COMPOUNDS . 263 9 MEASURING QUALITY OF MIX AND PROCESSABILITY . 267 9.1 DISPERSION OF FILLERS DURING MIXING . 267 9.2 MASTICATION OF ELASTOMERS DURING MIXING . 268 9.3 RHEOLOGICAL CHANGES DURING MIXING . 268 9.4 OPTIMAL RHEOLOGICAL CONDITIONS FOR MIX QUALITY MEASUREMENT . 269 9.5 STATE OF MIX AND PERCENT DISPERSION . 271 9.6 EFFECT OF OIL ON RUBBER MIXING . 272 9.7 EFFECT OF PHASE MIXING . 275 9.8 SPECIAL TEST CONDITIONS FOR MEASURING STATE OF MIX . 277 9.8.1 MOONEY VISCOSITY . ZT1 9.8.2 RPA AT 100% STRAIN (ASTM D6204 PART B) . 277 9.8.3 RPA PAYNE EFFECT PLATEAU (ASTM D8059) . 280 9.8.4 RPA STRESS RELAXATION (ASTM D6048) . 281 9.8.5 SPECIAL REFLECTIVE MICROSCOPE WITH COMPUTER ANALYSIS (ASTM D7723) . 283 9.9 SCORCH SAFETY MEASUREMENTS . 283 9.9.1 TRADITIONAL MOONEY SCORCH . 284 9.9.2 TRADITIONAL CUREMETER SCORCH MEASUREMENTS . 285 9.9.3 DYNAMIC PROPERTY MEASUREMENTS OF SCORCH . 285 9.9.4 LOWER CURE TEMPERATURE EFFECTS . 286 9.9.5 VARIABLE TEMPERATURE MEASUREMENTS OF SCORCH . 286 9.9.6 OPTIMIZING STRAIN AND FREQUENCY EFFECTS FOR SCORCH MEASUREMENTS . 286 9.9.7 EFFECTS OF CONTROLLED STRESS MEASUREMENTS ON SCORCH . 287 9.10 CURE RATE MEASUREMENTS . 287 9.11 WORK HISTORY VS. HEAT HISTORY . 289 9.12 STATE OF CURE . 291 9.13 CAPILLARY RHEOMETER VISCOSITY VS. DYNAMIC VISCOSITY . 293 9.14 SELECTING BEST TEST CONDITIONS FOR FACTORY CONTROL . 294 9.15 USING SPC CHARTS OF KEY PARAMETERS . 295 9.16 DOWNSTREAM PROCESSABILITY STAGES . 296 9.16.1 CALENDERING . 297 9.16.2 EXTRUSION . 297 9.16.3 CURING . 298 10 AFTER-CURE DYNAMIC PROPERTIES . 303 10.1 COMPARISON OF AFTER-CURE DYNAMIC PROPERTIES AND PRODUCT PERFORMANCE . 304 10.1.1 TIRES . 305 10.1.2 AUTOMOTIVE ISOLATORS AND DAMPERS . 310 10.1.3 SPORTS APPLICATIONS . 312 10.1.4 RUBBER SEALS AND GASKETS . 313 10.1.5 BLOWOUT PREVENTER . 313 10.1.6 CONVEYOR BELTS, TIMING BELTS, AND POWER BELTS . 313 10.2 PAYNE EFFECT FOR CURED RUBBER COMPOUNDS . 314 10.3 MULLINS EFFECT FOR CURED RUBBER COMPOUNDS . 321 10.4 LOW STRAIN VS. HIGH STRAIN MEASUREMENTS OF CURED VULCANIZATES . 324 10.5 ASTM STANDARD TEST METHOD USING RPA . 325 10.6 RELATION OF COMPRESSION AND EXTENSION DYNAMIC PROPERTIES TO SHEAR MEASUREMENTS . 330 11 METHODS FOR ANALYZING THE CURE REACTION . 337 11.1 REACTION KINETICS . 340 11.1.1 THE REACTION RATE CONSTANT . 340 11.1.2 ARRHENIUS MODEL . 344 11.1.3 ORDER OF REACTION (N) IN CURE KINETICS . 349 11.2 APPLICATIONS OF THE MAXIMUM CURE RATE (MCR) . 349 11.3 APPLICATIONS FOR THE RPA THERMAL RAMP . 351 11.4 CONCEPT OF CURE EQUIVALENTS . 354 11.5 DIRECT MEASUREMENT OF COMPLEX NON-ISOTHERMAL CURES . 357 INDEX . 363
adam_txt	THE AUTHORS V PREFACE . VII 1 OVERVIEW OF RUBBER RHEOLOGY AND DYNAMIC PROPERTY TESTS . 1 1.1 INTRODUCTION TO THE UNIQUENESS OF RUBBER RHEOLOGY . 1 1.2 BASIC TENSILE TESTING . 3 1.3 HARDNESS TESTING . 5 1.4 DENSITY . 6 1.5 MOONEY VISCOSITY . 7 1.6 ODR CUREMETER . 10 1.7 CAPILLARY RHEOMETER . 12 1.8 MOVING DIE RHEOMETER (MDR) . 13 1.9 RUBBER PROCESS ANALYZER (RPA) . 15 1.10 DYNAMIC MECHANICAL ANALYZER (DMA) . 16 1.11 FLEX FATIGUE TESTERS . 18 1.12 FLEXOMETER DELTA T . 19 1.13 MEASURING DISPERSION . 20 1.14 OTHER RELEVANT RUBBER TESTS . 22 1.14.1 COMPRESSION PLASTIMETERS . 22 1.14.2 TEAR PROPERTIES . 23 1.14.3 ELECTRICAL CONDUCTIVITY PROPERTIES . 24 1.14.4 DIFFERENTIAL SCANNING CALORIMETRY (DSC) . 24 1.14.5 THERMOGRAVIMETRIC ANALYSIS (TGA) . 25 1.14.6 FOURIER TRANSFORM INFRARED SPECTROSCOPY (FTIR) . 26 1.14.7 ATTENUATED TOTAL REFLECTANCE (ATR) . 28 1.14.8 GEL PERMEATION CHROMATOGRAPHY (GPC) . 28 1.14.9 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY (NMR) . 28 1.14.10 BET (BRUNAUER, EMMETT, AND TELLER) NITROGEN ADSORPTION SURFACE AREA APPARATUS . 29 1.14.11 THERMAL CONDUCTIVITY METERS . 29 2 MOONEY VISCOMETER . 35 2.1 DESCRIPTION OF THE MOONEY VISCOMETER . 35 2.2 MOONEY TESTS . 37 2.3 MOONEY VISCOSITY . 37 2.4 MEASURING MOONEY SCORCH . 42 2.5 MEASURING MOONEY STRESS RELAXATION . 46 2.6 DELTA MOONEY TEST FOR OIL EXTENDED EMULSION SBR . 48 2.7 VARIABLE SPEED MOONEY . 49 2.8 LIMITATIONS OF THE MOONEY VISCOMETER . 51 3 CAPILLARY RHEOMETER . 55 3.1 INTRODUCTION . 55 3.2 BASIC TYPES OF CAPILLARY RHEOMETERS . 57 3.3 MEASUREMENT OF VISCOSITY WITH A CAPILLARY RHEOMETER . 58 3.4 TYPES OF CAPILLARY RHEOMETER TESTS . 59 3.4.1 STABILITY TEST . 60 3.4.2 SHEAR RATE SWEEP . 61 3.4.3 MEASURE OF TRUE VISCOSITY WITH CAPILLARY RHEOMETERS BY USING CORRECTIONS . 63 3.4.3.1 BAGLEY CORRECTION . 63 3.4.3.2 RABINOWITSCH CORRECTION . 64 3.4.4 CAPILLARY RHEOMETER WALL SLIPPAGE . 64 3.5 BEHAVIOR OF NON-NEWTONIAN MATERIALS . 65 3.6 APPEARANCE OF CAPILLARY RHEOMETER EXTRUDATE . 69 3.7 CAPILLARY RHEOMETRY IN FACTORY PROBLEM SOLVING . 71 3.8 PREDICTION OF FACTORY PROCESSABILITY WITH CAPILLARY RHEOMETERS . 72 3.9 LIMITATIONS OF CAPILLARY RHEOMETERS IN RUBBER TESTING . 74 4 CUREMETERS . 77 4.1 OSCILLATING DISC RHEOMETER . 77 4.2 MOVING DIE RHEOMETER . 79 4.3 ASTM D2084 AND D5289 DATA POINTS FOR CUREMETERS . 84 4.4 DYNAMIC PROPERTIES MEASURED WITH AN MDR . 87 4.5 ASTM AND ISO STANDARDS FOR CUREMETERS AND THE SELECTION OF TEST CONDITIONS . 92 4.6 THE RPA AS A CUREMETER . 94 4.6.1 DESCRIPTION OF THE RPA AS A CUREMETER . 94 4.6.2 USING RPA DYNAMIC DATA FOR ANALYZING CURE CURVES . 94 4.6.2.1 TMAXS DURING CURE (TIME TO S" PEAK) . 94 4.6.2.2 S' AND S" DUE TO CROSSLINK DENSITY . 96 4.6.2.3 S' AND S" DUE TO FILLER LOADING . 97 4.6.3 EFFECT OF OIL . 99 5 VISCOELASTIC CHARACTERIZATION OF RUBBER . 101 5.1 INTRODUCTION TO THE VISCOELASTIC PROPERTY . 101 5.2 PURE ELASTICITY . 101 5.3 PURE VISCOSITY . 103 5.4 MODELING VISCOSITY . 106 5.5 VISCOELASTIC PROPERTIES . 107 5.6 MEASUREMENT OF VISCOELASTIC PROPERTIES WITH SINUSOIDAL DEFORMATION . 110 5.7 APPLICATIONS FOR VISCOELASTIC PROPERTIES . 114 5.8 INSTRUMENTS WITH MULTIPLE TEST CAPABILITIES . 114 5.9 RPA TEST CONDITIONS . 123 5.10 THE ADVANTAGES OF THE RPA OVER SCIENTIFIC DMAS . 125 5.11 THE BASICS OF MEASURING AND CALCULATING DYNAMIC MODULI . 128 5.12 THE BASICS OF MEASURING AND CALCULATING DYNAMIC VISCOSITY . 132 5.13 COMPLIANCE . 136 5.14 EXTENSION/COMPRESSION MODULUS AND COMPLIANCE . 137 5.15 SPRING RATE CONSTANTS AND DAMPING COEFFICIENTS . 140 5.16 TIME TEMPERATURE SUPERPOSITIONING (TTS) . 142 5.17 STATISTICAL EVALUATION OF RHEOMETERS . 145 6 TYPES OF RUBBER RPA RHEOLOGICAL TESTS . 151 6.1 SUMMARY OF RPA RHEOLOGICAL DATA . 151 6.2 TYPES OF RPA RHEOLOGICAL SUBTESTS . 152 6.2.1 TIMED . 152 6.2.2 TEMPERATURE SWEEP . 154 6.2.3 VTA (THERMAL RAMP) . 157 6.2.4 FREQUENCY SWEEP . 159 6.2.5 STRAIN SWEEP: LOW . 161 6.2.6 STRAIN SWEEP: HIGH . 163 6.2.7 MATRIX . 165 6.2.8 LAOS SWEEP . 165 6.2.9 STRESS RELAXATION . 169 6.3 ASTM, ISO, AND DIN STANDARD METHODS FOR RPA TESTING OF ELASTOMERS AND COMPOUNDS . 170 6.3.1 ASTM D6204 PART A . 170 6.3.2 ASTM D6204 PART B . 172 6.3.3 ASTM D6204 PARTC . 172 6.3.4 ASTM D6204AB FOR R&D . 174 6.3.5 ASTM D6601 . 175 6.3.6 ASTMD8059 . 177 6.3.7 ASTMD6048 . 179 6.3.8 ASTM D7050 . 181 6.3.9 ASTM D7605 . 182 6.3.10 ASTM D5289 . 184 6.3.11 DIN 53529 . 184 6.3.12 ISO 13145 . 185 6.4 NONSTANDARD METHODS FOR RPA TESTING OF ELASTOMERS AND COMPOUNDS . 186 6.4.1 DISPERSION USING DYNAMIC MECHANICAL METHODS . 186 6.4.2 MULTIPLE FREQUENCY SWEEPS WITH INCREASING STRAINS . 187 6.4.3 MULTIPLE IDENTICAL STRAIN SWEEPS . 188 6.4.4 ANAEROBIC HEAT AGING . 189 6.4.5 AEROBIC HEAT AGING . 189 6.4.6 VISCOUS HEATING OF UNCURED RUBBER COMPOUNDS . 190 6.4.7 HEAT BUILDUP AT FOR CURED RUBBER COMPOUND . 191 7 RAW RUBBER EFFECTS ON PROCESSABILITY . 195 7.1 NATURAL RUBBER . 195 7.2 SYNTHETIC RAW RUBBER . 201 7.2.1 AVERAGE MOLECULAR WEIGHT . 203 7.2.2 MOLECULAR WEIGHT DISTRIBUTION . 205 7.2.3 LONG CHAIN BRANCHING . 207 7.2.4 GEL . 209 7.2.5 CHANGES IN THE CHEMICAL COMPOSITION . 210 7.2.6 STATISTICAL CONFOUNDING . 212 7.3 HIGH STRAIN TESTING OF SYNTHETIC ELASTOMERS . 213 7.4 MEASURING IMPARTED DIFFERENCES IN SHEAR THINNING PROPERTIES . 214 7.5 STRESS RELAXATION OF ELASTOMERS AND PROCESSABILITY . 215 7.6 MASTER CURVE AND GLASS TRANSITION TEMPERATURE . 217 7.7 WLF SHIFTS FOR RAW ELASTOMERS . 220 7.8 TESTING LIQUID ELASTOMERS . 221 7.9 TESTING THERMOPLASTIC ELASTOMERS (TPE) . 223 7.10 PROCESSABILITY DATA ANALYSIS . 224 8 FILLER EFFECTS ON RUBBER COMPOUND PROCESSABILITY . 229 8.1 FILLER EFFECTS ON RUBBER COMPOUND PROPERTIES . 229 8.2 CARBON BLACK EFFECTS . 232 8.2.1 CARBON BLACK SURFACE AREA . 234 8.2.2 CORRELATION WITH CARBON BLACK STRUCTURE . 240 8.2.3 CORRELATION WITH CARBON BLACK SURFACE ACTIVITY . 245 8.2.4 EFFECTS OF VARIATION IN LOADING ON UNCURED VS. CURED DYNAMIC PROPERTIES . 246 8.3 OIL EFFECTS . 249 8.4 SILICA EFFECTS . 254 8.4.1 EFFECTS OF SILANIZATION . 254 8.4.2 EFFECTS OF SILICA SURFACE AREA . 256 8.4.3 EFFECTS OF SILICA LOADING . 257 8.4.4 RECOVERY OF THE SILICA NETWORK AFTER DESTRUCTION . 258 8.4.5 SPECIAL ROLE OF STRUCTURE FOR SILICA . 259 8.5 EFFECTS OF FULLY REINFORCING FILLERS ON THE COX-MERZ CORRELATION . 261 8.6 EFFECTS OF FILLER TYPE AND CONCENTRATION ON SHEAR THINNING PROFILES . 262 8.7 EFFECTS OF FILLER ROOM TEMPERATURE STORAGE ON FORMATION OF BOUND RUBBER AND RHEOLOGY OF FILLED RUBBER COMPOUNDS . 263 9 MEASURING QUALITY OF MIX AND PROCESSABILITY . 267 9.1 DISPERSION OF FILLERS DURING MIXING . 267 9.2 MASTICATION OF ELASTOMERS DURING MIXING . 268 9.3 RHEOLOGICAL CHANGES DURING MIXING . 268 9.4 OPTIMAL RHEOLOGICAL CONDITIONS FOR MIX QUALITY MEASUREMENT . 269 9.5 STATE OF MIX AND PERCENT DISPERSION . 271 9.6 EFFECT OF OIL ON RUBBER MIXING . 272 9.7 EFFECT OF PHASE MIXING . 275 9.8 SPECIAL TEST CONDITIONS FOR MEASURING STATE OF MIX . 277 9.8.1 MOONEY VISCOSITY . ZT1 9.8.2 RPA AT 100% STRAIN (ASTM D6204 PART B) . 277 9.8.3 RPA PAYNE EFFECT PLATEAU (ASTM D8059) . 280 9.8.4 RPA STRESS RELAXATION (ASTM D6048) . 281 9.8.5 SPECIAL REFLECTIVE MICROSCOPE WITH COMPUTER ANALYSIS (ASTM D7723) . 283 9.9 SCORCH SAFETY MEASUREMENTS . 283 9.9.1 TRADITIONAL MOONEY SCORCH . 284 9.9.2 TRADITIONAL CUREMETER SCORCH MEASUREMENTS . 285 9.9.3 DYNAMIC PROPERTY MEASUREMENTS OF SCORCH . 285 9.9.4 LOWER CURE TEMPERATURE EFFECTS . 286 9.9.5 VARIABLE TEMPERATURE MEASUREMENTS OF SCORCH . 286 9.9.6 OPTIMIZING STRAIN AND FREQUENCY EFFECTS FOR SCORCH MEASUREMENTS . 286 9.9.7 EFFECTS OF CONTROLLED STRESS MEASUREMENTS ON SCORCH . 287 9.10 CURE RATE MEASUREMENTS . 287 9.11 WORK HISTORY VS. HEAT HISTORY . 289 9.12 STATE OF CURE . 291 9.13 CAPILLARY RHEOMETER VISCOSITY VS. DYNAMIC VISCOSITY . 293 9.14 SELECTING BEST TEST CONDITIONS FOR FACTORY CONTROL . 294 9.15 USING SPC CHARTS OF KEY PARAMETERS . 295 9.16 DOWNSTREAM PROCESSABILITY STAGES . 296 9.16.1 CALENDERING . 297 9.16.2 EXTRUSION . 297 9.16.3 CURING . 298 10 AFTER-CURE DYNAMIC PROPERTIES . 303 10.1 COMPARISON OF AFTER-CURE DYNAMIC PROPERTIES AND PRODUCT PERFORMANCE . 304 10.1.1 TIRES . 305 10.1.2 AUTOMOTIVE ISOLATORS AND DAMPERS . 310 10.1.3 SPORTS APPLICATIONS . 312 10.1.4 RUBBER SEALS AND GASKETS . 313 10.1.5 BLOWOUT PREVENTER . 313 10.1.6 CONVEYOR BELTS, TIMING BELTS, AND POWER BELTS . 313 10.2 PAYNE EFFECT FOR CURED RUBBER COMPOUNDS . 314 10.3 MULLINS EFFECT FOR CURED RUBBER COMPOUNDS . 321 10.4 LOW STRAIN VS. HIGH STRAIN MEASUREMENTS OF CURED VULCANIZATES . 324 10.5 ASTM STANDARD TEST METHOD USING RPA . 325 10.6 RELATION OF COMPRESSION AND EXTENSION DYNAMIC PROPERTIES TO SHEAR MEASUREMENTS . 330 11 METHODS FOR ANALYZING THE CURE REACTION . 337 11.1 REACTION KINETICS . 340 11.1.1 THE REACTION RATE CONSTANT . 340 11.1.2 ARRHENIUS MODEL . 344 11.1.3 ORDER OF REACTION (N) IN CURE KINETICS . 349 11.2 APPLICATIONS OF THE MAXIMUM CURE RATE (MCR) . 349 11.3 APPLICATIONS FOR THE RPA THERMAL RAMP . 351 11.4 CONCEPT OF CURE EQUIVALENTS . 354 11.5 DIRECT MEASUREMENT OF COMPLEX NON-ISOTHERMAL CURES . 357 INDEX . 363
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author	Dick, John S. 1945- Pawlowski, Henry
author_GND	(DE-588)1145742114
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discipline	Chemie / Pharmazie Physik Werkstoffwissenschaften / Fertigungstechnik
discipline_str_mv	Chemie / Pharmazie Werkstoffwissenschaften / Fertigungstechnik
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spelling	Dick, John S. 1945- Verfasser (DE-588)1145742114 aut Practical rubber rheology and dynamic properties John S. Dick, Henry Pawlowski Munich Hanser [2023] © 2023 XV, 368 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Viskosimetrie (DE-588)4188415-2 gnd rswk-swf Kautschuk (DE-588)4030108-4 gnd rswk-swf Rheologie (DE-588)4049828-1 gnd rswk-swf Dynamisches Verhalten (DE-588)4140475-0 gnd rswk-swf Rheologische Eigenschaft (DE-588)4366895-1 gnd rswk-swf Kautschukindustrie (DE-588)4163517-6 gnd rswk-swf FBKTKAUT: Elastomere und Kautschuk PLAS2020 Rheologie (DE-588)4049828-1 s Kautschukindustrie (DE-588)4163517-6 s DE-604 Kautschuk (DE-588)4030108-4 s Rheologische Eigenschaft (DE-588)4366895-1 s Viskosimetrie (DE-588)4188415-2 s Dynamisches Verhalten (DE-588)4140475-0 s Pawlowski, Henry Verfasser aut Hanser Publications (DE-588)1064064051 pbl Erscheint auch als Online-Ausgabe 978-1-56990-618-7 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032309824&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dick, John S. 1945- Pawlowski, Henry Practical rubber rheology and dynamic properties Viskosimetrie (DE-588)4188415-2 gnd Kautschuk (DE-588)4030108-4 gnd Rheologie (DE-588)4049828-1 gnd Dynamisches Verhalten (DE-588)4140475-0 gnd Rheologische Eigenschaft (DE-588)4366895-1 gnd Kautschukindustrie (DE-588)4163517-6 gnd
subject_GND	(DE-588)4188415-2 (DE-588)4030108-4 (DE-588)4049828-1 (DE-588)4140475-0 (DE-588)4366895-1 (DE-588)4163517-6
title	Practical rubber rheology and dynamic properties
title_auth	Practical rubber rheology and dynamic properties
title_exact_search	Practical rubber rheology and dynamic properties
title_exact_search_txtP	Practical rubber rheology and dynamic properties
title_full	Practical rubber rheology and dynamic properties John S. Dick, Henry Pawlowski
title_fullStr	Practical rubber rheology and dynamic properties John S. Dick, Henry Pawlowski
title_full_unstemmed	Practical rubber rheology and dynamic properties John S. Dick, Henry Pawlowski
title_short	Practical rubber rheology and dynamic properties
title_sort	practical rubber rheology and dynamic properties
topic	Viskosimetrie (DE-588)4188415-2 gnd Kautschuk (DE-588)4030108-4 gnd Rheologie (DE-588)4049828-1 gnd Dynamisches Verhalten (DE-588)4140475-0 gnd Rheologische Eigenschaft (DE-588)4366895-1 gnd Kautschukindustrie (DE-588)4163517-6 gnd
topic_facet	Viskosimetrie Kautschuk Rheologie Dynamisches Verhalten Rheologische Eigenschaft Kautschukindustrie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032309824&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT dickjohns practicalrubberrheologyanddynamicproperties AT pawlowskihenry practicalrubberrheologyanddynamicproperties AT hanserpublications practicalrubberrheologyanddynamicproperties

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