Verfügbarkeit: Handbook of thermoplastic elastomers

Handbook of thermoplastic elastomers:

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Bibliographische Detailangaben
1. Verfasser:	Drobny, Jiri G. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Norwich, NY PDL (Plastics Design Libr.) 2007
Schriftenreihe:	PDL handbook series
Schlagworte:	Elastomers > Handbooks, manuals, etc Thermoplastics > Handbooks, manuals, etc Thermoplast Elastomer
Online-Zugang:	Table of contents only Publisher description Contributor biographical information Inhaltsverzeichnis
Beschreibung:	xvii, 404 p. ill.
ISBN:	9780815515494 0815515499

Internformat

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Datensatz im Suchindex

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adam_text	Contents Preface .............................................................. xvii 1 Introduction ............................................................ 1 1.1 Elasticity and Elastomers ............................................... 1 1.2 Thermoplastic Elastomers .............................................. 2 1.2.1 Phase Structure ............................................... 2 1.2.2 Methods of Synthesis of Thermoplastic Elastomers ...................... 3 1.2.2.1 Methods of Synthesis of Block Copolymers ..................... 3 1.2.2.2 Methods of Synthesis of Other Thermoplastic Elastomers ........... 4 1.2.3 Phase Separation .............................................. 4 1.2.4 Classification of Thermoplastic Elastomers ............................ 5 1.2.4.1 Nomenclature of Block Copolymers ........................... 5 1.2.5 Advantages and Disadvantages of Thermoplastic Elastomers ............... 6 1.2.6 Demand for Thermoplastic Elastomers and Its Growth ................................................ 7 References ............................................................. 7 2 A Brief History of Thermoplastic Elastomers ................................... 9 References ............................................................ 10 3 Additives .............................................................. 13 3.1 Antioxidants ....................................................... 13 3.2 Light Stabilizers .................................................... 13 3.2.1 UV Absorbers ................................................ 14 3.2.2 Quenchers .................................................. 14 3.2.3 Free Radical Scavengers ........................................ 14 3.2.4 Evaluation of UV Stability ........................................ 14 3.3 Nucleating Agents ................................................... 14 3.4 Flame Retardants ................................................... 15 3.4.1 Flammability Tests ............................................. 16 3.5 Colorants ......................................................... 17 3.5.1 Optical Properties of Colorants .................................... 17 3.5.2 Characteristics of Colorants ...................................... 17 3.5.3 Inorganic Pigments ............................................ 17 3.5.4 Organic Pigments ............................................. 18 3.5.5 Special Effect Pigments ......................................... 18 3.5.6 Colorant Forms ............................................... 18 3.6 Antistatic Agents .................................................... 19 3.6.1 Types of Antistatic Agents ....................................... 19 3.6.2 Electrically Conductive Materials ................................... 19 3.7 Slip Agents ........................................................ 19 3.8 Antiblocking Agents .................................................. 20 3.9 Processing Aids .................................................... 20 3.10 Fillers and Reinforcements ............................................ 20 3.10.1 Fillers Commonly Used in Thermoplastic Polymers ..................... 21 3.10.1.1 Cubic and Spheroidal Fillers ............................... 21 3.10.1.2 Platy Fillers ........................................... 22 3.10.1.3 Fibrous Fillers ......................................... 22 3.10.1.4 Nanofillers ............................................ 22 3.11 Plasticizers ........................................................ 23 3.11.1 Types of Plasticizers ........................................... 23 3.11.2 Methods of Incorporation ........................................ 23 3.12 Other Additives ..................................................... 23 3.13 Selection of Additives ................................................ 24 vii Contents 3.14 Health, Hygiene, and Safety ........................................... 25 References ............................................................ 25 Processing Methods Applicable to Thermoplastic Elastomers ..................... 29 4.1 Introduction ....................................................... 29 4.1.1 Properties Influencing Processing .................................. 29 4.1.1.1 Flow Properties ........................................ 29 4.1.1.2 Thermal Properties ...................................... 31 4.1.1.3 Shrinkage and Warping .................................. 32 4.1.2 Pre-Processing ............................................... 33 4.1.2.1 Drying ............................................... 34 4.1.2.2 Coloring .............................................. 34 4.2 Mixing and Blending ................................................. 35 4.2.1 Basic Concepts Pertaining to Mixing ................................ 36 4.2.1.1 Melting .............................................. 36 4.2.1.2 Rheology and Flow Pertaining to Mixing ....................... 36 4.2.1.3 Residence Time ........................................ 38 4.2.1.4 Specific Mechanical Energy ............................... 38 4.2.2 Polymer Blends ............................................... 39 4.2.3 Mixing Equipment ............................................. 40 4.2.3.1 Batch Mixers .......................................... 40 4.2.3.2 Continuous Mixers ...................................... 42 4.2.3.3 Other Mixing Machinery .................................. 43 4.2.4 Material Feeding and Feeders .................................... 47 4.2.5 Finishing Operations ........................................... 47 4.2.5.1 Filtration ............................................. 47 4.2.5.2 Size Reduction ......................................... 47 4.3 Extrusion ......................................................... 51 4.3.1 Fundamentals of Extrusion Processes ............................... 51 4.3.2 The Extruder ................................................. 52 4.3.3 Extrusion Methods ............................................. 54 4.3.3.1 Film and Sheet Extrusion ................................. 55 4.3.3.2 Coextrusion ........................................... 60 4.3.3.3 Wire Coating .......................................... 60 4.3.3.4 Extrusion of Pipe and Tubing .............................. 62 4.3.3.5 Extrusion of Profiles ..................................... 65 4.3.3.6 Extrusion Coating ....................................... 65 4.3.4 Process Control in Extrusion ..................................... 65 4.4 Injection Molding .................................................... 66 4.4.1 General Considerations ........................................ 66 4.4.2 Basic Technology ............................................. 67 4.4.3 The Process ................................................. 67 4.4.4 Injection Molding Machinery ...................................... 67 4.4.4.1 Clamp Unit ........................................... 68 4.4.4.2 Injection Unit .......................................... 69 4.4.4.3 Power Systems ........................................ 72 4.4.4.4 Control Systems ........................................ 72 4.4.5 The Injection Mold ............................................. 74 4.4.5.1 Injection Mold Components ................................ 74 4.4.5.2 Injection Mold Types .................................... 74 4.4.6 Injection Mold Feed Systems ..................................... 76 4.4.6.1 Cold Runners .......................................... 77 4.4.6.2 Sprues .............................................. 78 4.4.6.3 Gates ............................................... 78 4.4.6.4 Hot Runners .......................................... 80 4.4.7 Injection Mold Features ......................................... 81 4.4.7.1 Materials ............................................. 81 4.4.7.2 Cooling .............................................. 81 4.4.7.3 Venting .............................................. 83 Contents 4.4.7.4 Ejection .............................................. 84 4.4.8 Materials of Construction ........................................ 84 4.4.9 Dimensional Stability of Parts ..................................... 84 4.5 Compression Molding ................................................ 86 4.5.1 Types of Compression Molds ..................................... 87 4.5.2 The Compression Molding Press .................................. 89 4.5.3 Compression Molding of Thermoplastics ............................. 89 4.6 Transfer Molding .................................................... 90 4.6.1 Background ................................................. 90 4.6.2 Transfer-In Compression Molding .................................. 90 4.6.3 Plunger Molding .............................................. 91 4.6.4 Screw Transfer Molding ......................................... 91 4.6.5 Types of Transfer Molds ........................................ 91 4.6.6 Transfer Molding of TPEs ....................................... 93 4.6.6.1 Mold Design .......................................... 93 4.6.6.2 Operation of the Mold .................................... 96 4.6.6.3 Transfer Molding Process Variables .......................... 96 4.7 Blow Molding ...................................................... 97 4.7.1 Blow Molding Processes ........................................ 97 4.7.1.1 The Extruder .......................................... 98 4.7.1.2 The Parison Head ...................................... 98 4.7.2 Extrusion Blow Molding .......................................... 99 4.7.3 Injection Blow Molding ......................................... 102 4.7.4 Stretch Blow Molding .......................................... 102 4.7.5 Dip Blow Molding ............................................. 103 4.7.6 Multiblock Blow Molding ........................................ 104 4.7.7 Coextrusion Blow Molding Techniques .............................. 104 4.7.8 Sequential Extrusion ........................................... 104 4.7.9 Molds for Blow Molding ......................................... 105 4.7.9.1 Basic Features ....................................... 105 4.7.9.2 Pinch-Off Zone ........................................ 105 4.7.9.3 Blowing and Calibrating Devices ........................... 106 4.7.9.4 Venting and Surface Finish ............................... 106 4.7.9.5 Cooling ............................................. 107 4.7.10 Examples of Blow Molded Parts .................................. 108 4.8 Rotational Molding ................................................. 108 4.8.1 Background ................................................ 108 4.8.2 Basic Process Technology ...................................... 109 4.8.3 Rotational Molding Equipment ................................... 110 4.8.3.1 Batch Systems ........................................ 111 4.8.3.2 Carousel Machines ..................................... 111 4.8.3.3 Shuttle Machines ...................................... 112 4.8.3.4 Clamshell Machines .................................... 112 4.8.4 Equipment and Process Design .................................. 112 4.8.4.1 Molds .............................................. 112 4.8.4.2 Mold Surface Preparation ................................ 114 4.8.5 Operation of Rotomolding Processes .............................. 114 4.8.5.1 Oven Dwell Time ...................................... 115 4.8.5.2 Cooling Cycle ........................................ 117 4.8.5.3 Venting ............................................. 117 4.8.5.4 Part Stripping ......................................... 117 4.8.5.5 Rotation Rate and Ratio ................................. 118 4.8.6 Rotolining Process ............................................ 118 4.8.7 Melting of Polymer and Part Formation ............................. 119 4.8.8 Troubleshooting .............................................. 120 4.8.9 Conclusion ................................................. 120 4.9 Foaming of Thermoplastics ........................................... 121 4.9.1 Introduction ................................................. 121 4.9.2 Background ................................................ 121 x Contents 4.9.3 Foaming Technology .......................................... 121 4.9.3.1 Mechanical Foaming ................................... 122 4.9.3.2 Chemical Foaming ..................................... 122 4.9.3.3 Physical Foaming ..................................... 122 4.9.4 Foam Manufacturing Processes .................................. 123 4.10 Thermoforming .................................................... 124 4.10.1 Process Basics .............................................. 124 4.10.2 Process Factors ............................................. 125 4.10.2.1 Forming Force ........................................ 126 4.10.2.2 Mold Type ........................................... 127 4.10.2.3 Sheet Prestretch ...................................... 127 4.10.2.4 Material Input ........................................ 128 4.10.2.5 Process Phase ....................................... 128 4.10.2.6 Heating ............................................. 128 4.11 Calendering ...................................................... 129 4.12 Secondary Manufacturing Processes .................................... 129 4.12.1 Film and Sheet Orientation ...................................... 129 4.12.1.1 Machine Direction Orientation ............................. 130 4.12.1.2 Transverse Direction Orientation ........................... 131 4.12.1.3 Biaxial Orientation ..................................... 131 4.12.1.4 Heat Shrinkable Films and Tubing ......................... 132 4.12.2 Welding ................................................... 133 4.12.2.1 Heated Tool Welding ................................... 133 4.12.2.2 Hot Gas Welding ...................................... 133 4.12.2.3 Ultrasonic Welding ..................................... 134 4.12.2.4 Spin Welding ......................................... 135 4.12.2.5 Infrared Welding ...................................... 136 4.12.2.6 High Frequency Welding ................................ 136 4.12.2.7 Vibration Welding ..................................... 137 4.12.2.8 Induction Welding ..................................... 137 4.12.2.9 Microwave Welding .................................... 138 4.12.2.10Other Welding Methods ................................. 139 4.12.3 Adhesive Bonding ............................................ 141 4.12.3.1 Principles of Adhesive Bonding ............................ 141 4.12.3.2 Methods of Surface Treatment ............................ 142 4.12.3.3 Types of Polymeric Adhesives ............................ 145 4.12.3.4 Application of Adhesives ................................ 146 4.12.3.5 Formation of an Adhesive Bond ........................... 146 4.12.3.6 Measurement of the Bond Strength ......................... 146 4.12.4 Mechanical Fastening ......................................... 147 4.12.5 Decorating ................................................. 148 4.12.5.1 Appliqués ........................................... 148 4.12.5.2 Painting ............................................ 148 4.12.5.3 In-Mold Decorating .................................... 148 4.12.5.4 Metallization ......................................... 148 4.12.5.5 Printing ............................................. 149 4.12.5.6 Other Decorating Processes .............................. 150 4.12.6 Cross-Linking ............................................... 150 4.13 General Processing Technology of TPEs ................................. 150 4.13.1 Compounding of TPEs ......................................... 150 4.13.2 Injection Molding ............................................. 151 4.13.2.1 Overmolding ......................................... 152 4.14 Process Simulation ................................................. 153 4.15 Product Development and Testing ...................................... 153 References ........................................................... 154 5 Styrenie Block Copolymers .............................................. 161 5.1 Introduction ...................................................... 161 5.2 Polystyrene-Polydiene Block Copolymers ................................. 162 Contents 5.2.1 Synthesis of Polystyrene-Polydiene Block Copolymers .................. 162 5.2.2 Morphology of Polystyrene-Polydiene Block Copolymers ................ 163 5.2.3 Critical Molecular Weight for Domain Formation ....................... 164 5.2.4 Properties of Polystyrene-Polydiene Block Copolymers ................. 165 5.2.4.1 Structure-Property Relationships .......................... 165 5.2.4.2 Tensile Properties ..................................... 166 5.2.4.3 Viscous and Viscoelastic Properties ........................ 166 5.2.4.4 Solution Properties .................................... 167 5.2.4.5 Swelling ............................................ 168 5.2.5 Formulating Styrenie TPEs ...................................... 168 5.2.5.1 Formulating S-B-S Block Copolymers ...................... 168 5.2.5.2 Formulating S-EB-S Block Copolymers ..................... 169 5.2.6 Compounding ............................................... 170 5.2.6.1 Melt Mixing .......................................... 170 5.2.6.2 Dry Blending ......................................... 170 5.2.6.3 Solution Mixing ....................................... 170 5.2.7 Processing of Compounds from SBCs ............................. 171 5.2.7.1 Extrusion ........................................... 171 5.2.7.2 Injection Molding ...................................... 172 5.2.7.3 Blow Molding ........................................ 173 5.2.7.4 Thermoforming ....................................... 173 5.2.7.5 Compression Molding .................................. 173 5.2.7.6 Bonding and Sealing ................................... 173 5.3 SBCs Synthesized by Carbocationic Polymerization ......................... 173 5.3.1 The Polymerization Process ..................................... 173 5.3.2 Properties of S-IB-S Block Copolymers ............................ 174 References ........................................................... 175 Thermoplastic Elastomers Prepared by Dynamic Vulcanization ................... 179 6.1 Introduction ...................................................... 179 6.2 The Dynamic Vulcanization Process ..................................... 180 6.3 Properties of Blends Prepared by Dynamic Vulcanization ...................... 181 6.3.1 TPVs Based on Polyolefins ..................................... 181 6.3.1.1 TPVs from EPDM-Polyolefin Blends ........................ 181 6.3.1.2 TPVs from Diene Rubbers and Polyolefins ................... 181 6.3.1.3 TPVs from Butyl and Halobutyl Rubber and PP Resins .......... 182 6.3.1.4 TPVs from Butadiene-Acrylonitrile Rubber and Polyamides........ 182 6.3.1.5 TPVs Based on Polyacrylate Rubber and Polyamides........... 185 6.4 Processing and Fabrication of TPVs ..................................... 185 6.4.1 Rheology .................................................. 185 6.4.2 Extrusion .................................................. 185 6.4.3 Injection Molding ............................................. 186 6.4.4 Compression Molding ......................................... 186 6.4.5 Blow Molding ............................................... 187 6.4.6 Thermoforming .............................................. 187 6.4.7 Calendering ................................................ 187 6.4.8 Extrusion Foaming ............................................ 187 6.4.9 Bonding of TPVs ............................................. 188 References ........................................................... 189 Polyolefin-Based Thermoplastic Elastomers .................................. 191 7.1 Introduction ...................................................... 191 7.2 Thermoplastic Polyolefin Blends ........................................ 191 7.2.1 Compounding of TPOs ........................................ 193 7.3 Morphology ...................................................... 193 7.4 Properties of TPOs ................................................. 193 7.4.1 Mechanical Properties of TPOs .................................. 193 7.4.1.1 Stress-Strain Properties ................................. 193 7.4.2 Service Temperatures ......................................... 194 7.4.3 Weathering ................................................. 195 xii Contents 7.4.4 Chemical Resistance .......................................... 195 7.4.5 Adhesion .................................................. 195 7.4.6 Electrical Properties ........................................... 195 7.5 Processing of TPOs ................................................ 195 7.5.1 Injection Molding ............................................. 196 7.5.1.1 Equipment and Process Conditions ......................... 196 7.5.1.2 Mold Design ......................................... 196 7.5.2 Extrusion .................................................. 196 7.5.2.1 Equipment and Process Conditions ......................... 196 7.5.3 Other Processing Methods ...................................... 197 7.6 Painting of TPOs .................................................. 198 References ........................................................... 198 8 Thermoplastic Elastomers Based on Halogen-Containing Polyolefins .............. 201 8.1 Introduction ...................................................... 201 8.2 Blends of PVC with Nitrite Rubber (NBR)................................. 201 8.2.1 Melt Compounding and Processing ................................ 202 8.2.2 Physical and Mechanical Properties ............................... 202 8.2.3 Other Properties ............................................. 202 8.3 Blends of PVC with Other Elastomers ................................... 203 8.3.1 Blends of PVC with Copolyester Elastomers ......................... 203 8.3.2 Blends of PVC with Thermoplastic Polyurethane Elastomers .............. 204 8.4 Melt-Processable Rubber ............................................. 204 8.4.1 Physical and Mechanical Properties ............................... 205 8.4.2 Chemical Resistance .......................................... 206 8.4.3 Weather and Flame Resistance .................................. 206 8.4.4 Electrical Properties ........................................... 207 8.4.5 Grades of MPR .............................................. 207 8.4.6 Blends with Other Polymers ..................................... 208 8.4.7 Processing ................................................. 209 8.4.7.1 Injection Molding ...................................... 209 8.4.7.2 Extrusion ........................................... 209 8.4.7.3 Extrusion Blow Molding ................................. 210 8.4.7.4 Calendering ......................................... 211 8.4.7.5 Compression Molding .................................. 211 8.4.7.6 Bonding and Welding ................................... 212 8.5 Thermoplastic Fluorocarbon Elastomer ................................... 212 References ........................................................... 213 9 Thermoplastic Polyurethane Elastomers ..................................... 215 9.1 Introduction ...................................................... 215 9.2 Synthesis of TPUs ................................................. 216 9.2.1 Raw Materials for TPUs ........................................ 216 9.2.1.1 Raw Materials for Soft Segments .......................... 216 9.2.1.2 Raw Materials for Hard Segments ......................... 216 9.2.1.3 Other Raw Materials ................................... 217 9.3 Morphology ...................................................... 218 9.3.1 Morphology of Hard Segments ................................... 218 9.4 Thermal Transitions ................................................ 218 9.5 Properties ....................................................... 219 9.5.1 Mechanical Properties ......................................... 219 9.5.1.1 Stress-Strain Properties ................................. 221 9.5.1.2 Compression Set ...................................... 221 9.5.1.3 Hardness ................................. 221 9.5.1.4 Stiffness ............................................ 221 9.5.1.5 Dynamic Properties .................................... 221 9.5.2 Thermal Properties .................... 222 9.5.3 Hydrolytic Stability ........................................... 222 9.5.4 Chemical Resistance ........................................ 223 9.5.5 Abrasion Resistance ........................................ 223 Contents 9.5.6 Ultraviolet Stability ............................................ 223 9.5.7 Electrical Properties ........................................... 223 9.6 Processing of TPUs ................................................ 223 9.6.1 Rheology of TPUs ............................................ 224 9.6.2 Drying .................................................... 224 9.6.3 Injection Molding ............................................. 224 9.6.3.1 Operating Conditions ................................... 227 9.6.3.2 Insert Molding ........................................ 228 9.6.3.3 The Use of Regrind .................................... 228 9.6.4 Extrusion .................................................. 228 9.6.4.1 Screw Design ........................................ 228 9.6.4.2 Die Design .......................................... 229 9.6.4.3 Extrusion Temperature Profiles ............................ 229 9.6.4.4 Extrusion Methods Used ................................ 229 9.6.4.5 PostExtrusion Conditioning ............................... 229 9.6.5 Calendering ................................................ 229 9.6.6 Blowmolding ................................................ 229 9.6.7 Thermoforming .............................................. 229 9.7 Blends of TPU with Other Polymers ..................................... 230 9.8 Bonding and Welding ............................................... 230 9.8.1 Heat Welding and Sealing ...................................... 230 9.8.2 Solvent and Adhesive Bonding ................................... 230 References ........................................................... 230 10 Thermoplastic Elastomers Based on Polyamides............................. 235 10.1 Introduction ...................................................... 235 10.2 Synthesis ........................................................ 235 10.2.1 Synthesis of PEAs, PEEAs, and PCEAs ............................ 235 10.2.2 Synthesis of PE-b-As .......................................... 236 10.2.3 Synthesis of Other Thermoplastic PolyamideElastomers ................. 236 10.3 Morphology ...................................................... 237 10.4 Structure-Property Relationships ....................................... 238 10.5 Physical and Mechanical Properties ..................................... 238 10.5.1 Tensile Properties ............................................ 238 10.5.2 Properties at Elevated Temperatures .............................. 239 10.5.3 Tear Strength ............................................... 241 10.5.4 Abrasion Resistance .......................................... 241 10.5.5 Compression Set ............................................. 242 10.5.6 Flex Properties .............................................. 242 10.6 Chemical and Solvent Resistance ...................................... 242 10.7 Electrical Properties ................................................ 243 10.8 Other Properties ................................................... 243 10.8.1 Weatherability ............................................... 243 10.8.2 Adhesion .................................................. 243 10.9 Compounding ..................................................... 243 10.10 Processing ....................................................... 244 10.10.1 Rheology .................................................. 244 10.10.2 Drying .................................................... 244 10.10.3 Injection Molding ............................................. 244 10.10.4 Extrusion .................................................. 245 10.10.5 Other Processing Methods ...................................... 245 10.11 Bonding and Welding ............................................... 245 10.11.1 Bonding ................................................... 245 10.11.2 Welding ................................................... 246 References ........................................................... 246 11 Thermoplastic Polyether Ester Elastomers .................................. 249 11.1 Introduction ...................................................... 249 11.2 Synthesis ........................................................ 249 11.3 Morphology ...................................................... 249 xiv Contents 11.4 Properties of Commercial COPEs ...................................... 250 11.4.1 Stress-Strain Properties ....................................... 250 11.4.2 Dynamic Properties ........................................... 250 11.4.3 Cut Growth Resistance ........................................ 251 11.4.4 Impact Resistance ............................................ 251 11.4.5 Responses to Changes of Temperature ............................ 252 11.4.6 Abrasion Resistance .......................................... 252 11.4.7 Electrical Properties ........................................... 253 11.4.8 Chemical Resistance .......................................... 253 11.4.9 Other Properties ............................................. 254 11.5 COPE Blends ..................................................... 255 11.5.1 Blends of Different Grades of COPE ............................... 255 11.5.2 Blends with Other Polymers ..................................... 255 11.6 Processing ....................................................... 255 11.6.1 General ................................................... 255 11.6.2 Melt Rheology ............................................... 256 11.6.3 Injection Molding ............................................. 257 11.6.3.1 Screw Design ........................................ 257 11.6.3.2 Clamping Force ....................................... 257 11.6.3.3 Molding Conditions .................................... 257 11.6.3.4 Molds .............................................. 257 11.6.3.5 Shrinkage ........................................... 258 11.6.3.6 Overmolding (Insert Molding) ............................. 259 11.6.4 Extrusion .................................................. 259 11.6.4.1 Screw Design ........................................ 259 11.6.4.2 Processing Conditions .................................. 259 11.6.5 Blow Molding ............................................... 261 11.6.5.1 Processing Conditions .................................. 261 11.6.6 Melt Casting ................................................ 261 11.6.7 Rotational Molding ............................................ 262 11.6.8 Welding and Bonding .......................................... 262 11.6.8.1 Welding ............................................ 262 11.6.8.2 Bonding and Adhesion .................................. 262 11.6.9 Finishing ................................................... 262 References ........................................................... 263 12 lonomeric Thermoplastic Elastomers ...................................... 265 12.1 Introduction ...................................................... 265 12.2 Synthesis ........................................................ 265 12.3 Morphology ...................................................... 265 12.4 Properties and Processing ............................................ 266 References ........................................................... 267 13 Other Thermoplastic Elastomers .......................................... 269 13.1 Elastomeric Star Block Copolymers ..................................... 269 13.1.1 General Methods for the Synthesis of Star Copolymers ............................................. 269 13.1.2 Physical Properties of Star Block Copolymers ........................ 270 13.2 TPEs Based on Interpenetrating Networks ................................ 270 13.2.1 Synthesis of Thermoplastic IPNs ................................. 271 13.2.2 Properties and Processing of Thermoplastic IPNs ..................... 271 13.3 ТРЕ Based on Polyacrylates .......................................... 272 13.3.1 Synthesis of Triblock Copolymers Based on Methyl Methacrylate and Butadiene 272 13.3.2 Properties of M-B-M Triblock Copolymers ......................... 272 13.3.3 Synthesis of Poly(MMA-řBA-MMA) Elastomers ...................... 272 13.3.4 Synthesis of PolyiMMA-b-Alkylacrylate-o-MMA) ....................... 272 13.3.5 Mechanical Properties of Fully Acrylic Triblock and Branched Block Copolymers 273 References ........................................................... 273 Contents 14 Thermoplastic Elastomers Based on Recycled Rubber and Plastics ............... 277 14.1 Introduction ...................................................... 277 14.2 EPDM Scrap ..................................................... 277 14.3 Butadiene-acrylonitrile Rubber (NBR) Scrap ............................... 277 14.4 Recycled Rubber .................................................. 277 14.5 Waste Latex ...................................................... 278 14.6 Waste Plastics .................................................... 278 References ........................................................... 278 15 Applications of Thermoplastic Elastomers .................................. 281 15.1 Introduction ...................................................... 281 15.2 Applications for Styrenie TPEs ......................................... 281 15.2.1 SBCs as Replacement of Vulcanized Rubber ........................ 282 15.2.2 SBCs in Adhesives, Sealants, and Coatings ......................... 283 15.2.2.1 Solution Behavior of SBCs ............................... 286 15.2.2.2 Examples of Applications ................................ 287 15.2.3 Blends of SBC with Other Polymers ............................... 288 15.2.3.1 Blends of SBCs and PS ................................. 288 15.2.3.2 Blends of SBCs and Polyolefins ........................... 288 15.2.3.3 Blends of SBCs with Thermosets .......................... 288 15.2.4 Modified Asphalt ............................................. 289 15.3 Applications of Thermoplastic Vulcanizates (TPVs) and ETPVs ................. 289 15.3.1 Introduction ................................................. 289 15.3.2 Comparison of TPVs and Thermoset Rubber Materials ................. 289 15.3.3 Commercial Applications of TPVs ................................. 290 15.3.3.1 Automotive Applications ................................. 290 15.3.3.2 Hose, Tubing, and Sheet ................................ 290 15.3.3.3 Mechanical Rubber Goods and Consumer Goods .............. 291 15.3.3.4 Architectural and Construction ............................ 292 15.3.3.5 Electrical and Electronics ................................ 292 15.3.3.6 Medical and Food Contact ............................... 293 15.4 Applications of Thermoplastic Polyolefin Elastomers (TPOs) .................... 294 15.4.1 Automotive ................................................. 294 15.4.2 Wire and Cable .............................................. 294 15.4.3 Mechanical Goods ............................................ 294 15.4.4 Other Applications ............................................ 295 15.5 Applications of Melt-Processable Rubber (MPR) ............................ 296 15.5.1 Industrial Hose .............................................. 296 15.5.2 Automotive ................................................. 296 15.5.3 Wire and Cable .............................................. 297 15.5.4 Elastomeric Sheeting .......................................... 297 15.5.5 Molded Goods ............................................... 297 15.5.6 Fabric Coating ............................................... 297 15.5.7 Other Applications ............................................ 298 15.6 Applications of PVC Blends ........................................... 298 15.6.1 PVC-Nitrile Rubber (NBR) Blends ................................ 298 15.6.2 PVC-Copolyester Elastomer (COPE) Blends ......................... 299 15.6.3 PVC-TPU Blends ............................................ 299 15.7 Application of TPUs ................................................ 300 15.7.1 Introduction ................................................. 300 15.7.2 Commercial Applications ....................................... 300 15.7.2.1 Automotive .......................................... 300 15.7.2.2 Hose and Tubing ...................................... 300 15.7.2.3 Wire and Cable ....................................... 300 15.7.2.4 Wheels and Casters ................................... 301 15.7.2.5 Film and Sheet ....................................... 302 15.7.2.6 Adhesives, Sealants, and Coatings ......................... 302 15.7.2.7 Mechanical Goods, Consumer, and Sporting Goods ............. 302 15.7.2.8 Medical Applications ................................... 303 xvi Contents 15.7.2.9 Blends with Other Polymers .............................. 304 15.8 Application of Thermoplastic Polyether Ester Elastomers ...................... 304 15.8.1 General Properties and Processing ................................ 304 15.8.2 Commercial Applications ....................................... 304 15.8.2.1 Automotive Applications ................................. 304 15.8.2.2 Electrical/Electronic Applications ........................... 304 15.8.2.3 Extruded and Molded Mechanical Goods ..................... 305 15.8.2.4 Other Applications ..................................... 305 15.9 Applications of Polyamide TPEs ........................................ 306 15.9.1 Introduction ................................................. 306 15.9.2 Commercial Applications ....................................... 307 15.9.2.1 Automotive .......................................... 307 15.9.2.2 Sporting Goods ....................................... 307 15.9.2.3 Wire and Cable ....................................... 308 15.9.2.4 Technical Goods ...................................... 308 15.9.2.5 Medical Applications ................................... 309 15.9.2.6 Other Applications ..................................... 309 15.10 Applications of lonomeric TPEs ........................................ 310 15.10.1 Introduction ................................................. 310 15.10.2 Commercial Applications ....................................... 311 15.10.2.1 Adhesives ........................................... 311 15.10.2.2Other Applications ..................................... 311 15.11 Applications of Other TPEs ........................................... 311 15.11.1 Applications of Star Block Copolymers ............................. 311 15.11.2 Applications of Thermoplastic Interpénétration Networks (IPNs) ........... 312 15.11.3 Applications of Special Blends and Proprietary Compounds .............. 313 References ........................................................... 313 16 Recycling of Thermoplastic Elastomers .................................... 317 16.1 Introduction ...................................................... 317 16.2 Recycling Methods for Thermoplastic Elastomers (TPEs) ...................... 317 References ........................................................... 318 17 Recent Developments and Trends ........................................ 319 17.1 Current State ..................................................... 319 17.2 Drivers for the Growth of TPEs ........................................ 319 17.3 Trends in Technical Development ...................................... 319 17.3.1 Trends in Development and Uses of Individual TPEs .............................................. 319 17.4 Other New Developments ............................................ 321 References ........................................................... 321 Appendix 1 : Books, Conferences, Major Review Articles ........................... 323 Appendix 2: Major Suppliers of Thermoplastic Elastomers and Compounds ............ 325 Appendix 3: ISO Nomenclature for Thermoplastic Elastomers ....................... 329 Appendix 4: Processing Data Sheets for Commercial Thermoplastic Elastomers and Compounds ................................................ 333 Appendix 5: Technical Data Sheets for Commercial Thermoplastic Elastomers and Compounds ................................................ 345 Appendix 6: Recent ТРЕ Patents ............................................. 379 Glossary ................................................................ 381 Index .................................................................. 391
adam_txt	Contents Preface . xvii 1 Introduction . 1 1.1 Elasticity and Elastomers . 1 1.2 Thermoplastic Elastomers . 2 1.2.1 Phase Structure . 2 1.2.2 Methods of Synthesis of Thermoplastic Elastomers . 3 1.2.2.1 Methods of Synthesis of Block Copolymers . 3 1.2.2.2 Methods of Synthesis of Other Thermoplastic Elastomers . 4 1.2.3 Phase Separation . 4 1.2.4 Classification of Thermoplastic Elastomers . 5 1.2.4.1 Nomenclature of Block Copolymers . 5 1.2.5 Advantages and Disadvantages of Thermoplastic Elastomers . 6 1.2.6 Demand for Thermoplastic Elastomers and Its Growth . 7 References . 7 2 A Brief History of Thermoplastic Elastomers . 9 References . 10 3 Additives . 13 3.1 Antioxidants . 13 3.2 Light Stabilizers . 13 3.2.1 UV Absorbers . 14 3.2.2 Quenchers . 14 3.2.3 Free Radical Scavengers . 14 3.2.4 Evaluation of UV Stability . 14 3.3 Nucleating Agents . 14 3.4 Flame Retardants . 15 3.4.1 Flammability Tests . 16 3.5 Colorants . 17 3.5.1 Optical Properties of Colorants . 17 3.5.2 Characteristics of Colorants . 17 3.5.3 Inorganic Pigments . 17 3.5.4 Organic Pigments . 18 3.5.5 Special Effect Pigments . 18 3.5.6 Colorant Forms . 18 3.6 Antistatic Agents . 19 3.6.1 Types of Antistatic Agents . 19 3.6.2 Electrically Conductive Materials . 19 3.7 Slip Agents . 19 3.8 Antiblocking Agents . 20 3.9 Processing Aids . 20 3.10 Fillers and Reinforcements . 20 3.10.1 Fillers Commonly Used in Thermoplastic Polymers . 21 3.10.1.1 Cubic and Spheroidal Fillers . 21 3.10.1.2 Platy Fillers . 22 3.10.1.3 Fibrous Fillers . 22 3.10.1.4 Nanofillers . 22 3.11 Plasticizers . 23 3.11.1 Types of Plasticizers . 23 3.11.2 Methods of Incorporation . 23 3.12 Other Additives . 23 3.13 Selection of Additives . 24 vii Contents 3.14 Health, Hygiene, and Safety . 25 References . 25 Processing Methods Applicable to Thermoplastic Elastomers . 29 4.1 Introduction . 29 4.1.1 Properties Influencing Processing . 29 4.1.1.1 Flow Properties . 29 4.1.1.2 Thermal Properties . 31 4.1.1.3 Shrinkage and Warping . 32 4.1.2 Pre-Processing . 33 4.1.2.1 Drying . 34 4.1.2.2 Coloring . 34 4.2 Mixing and Blending . 35 4.2.1 Basic Concepts Pertaining to Mixing . 36 4.2.1.1 Melting . 36 4.2.1.2 Rheology and Flow Pertaining to Mixing . 36 4.2.1.3 Residence Time . 38 4.2.1.4 Specific Mechanical Energy . 38 4.2.2 Polymer Blends . 39 4.2.3 Mixing Equipment . 40 4.2.3.1 Batch Mixers . 40 4.2.3.2 Continuous Mixers . 42 4.2.3.3 Other Mixing Machinery . 43 4.2.4 Material Feeding and Feeders . 47 4.2.5 Finishing Operations . 47 4.2.5.1 Filtration . 47 4.2.5.2 Size Reduction . 47 4.3 Extrusion . 51 4.3.1 Fundamentals of Extrusion Processes . 51 4.3.2 The Extruder . 52 4.3.3 Extrusion Methods . 54 4.3.3.1 Film and Sheet Extrusion . 55 4.3.3.2 Coextrusion . 60 4.3.3.3 Wire Coating . 60 4.3.3.4 Extrusion of Pipe and Tubing . 62 4.3.3.5 Extrusion of Profiles . 65 4.3.3.6 Extrusion Coating . 65 4.3.4 Process Control in Extrusion . 65 4.4 Injection Molding . 66 4.4.1 General Considerations . 66 4.4.2 Basic Technology . 67 4.4.3 The Process . 67 4.4.4 Injection Molding Machinery . 67 4.4.4.1 Clamp Unit . 68 4.4.4.2 Injection Unit . 69 4.4.4.3 Power Systems . 72 4.4.4.4 Control Systems . 72 4.4.5 The Injection Mold . 74 4.4.5.1 Injection Mold Components . 74 4.4.5.2 Injection Mold Types . 74 4.4.6 Injection Mold Feed Systems . 76 4.4.6.1 Cold Runners . 77 4.4.6.2 Sprues . 78 4.4.6.3 Gates . 78 4.4.6.4 Hot Runners . 80 4.4.7 Injection Mold Features . 81 4.4.7.1 Materials . 81 4.4.7.2 Cooling . 81 4.4.7.3 Venting . 83 Contents 4.4.7.4 Ejection . 84 4.4.8 Materials of Construction . 84 4.4.9 Dimensional Stability of Parts . 84 4.5 Compression Molding . 86 4.5.1 Types of Compression Molds . 87 4.5.2 The Compression Molding Press . 89 4.5.3 Compression Molding of Thermoplastics . 89 4.6 Transfer Molding . 90 4.6.1 Background . 90 4.6.2 Transfer-In Compression Molding . 90 4.6.3 Plunger Molding . 91 4.6.4 Screw Transfer Molding . 91 4.6.5 Types of Transfer Molds . 91 4.6.6 Transfer Molding of TPEs . 93 4.6.6.1 Mold Design . 93 4.6.6.2 Operation of the Mold . 96 4.6.6.3 Transfer Molding Process Variables . 96 4.7 Blow Molding . 97 4.7.1 Blow Molding Processes . 97 4.7.1.1 The Extruder . 98 4.7.1.2 The Parison Head . 98 4.7.2 Extrusion Blow Molding . 99 4.7.3 Injection Blow Molding . 102 4.7.4 Stretch Blow Molding . 102 4.7.5 Dip Blow Molding . 103 4.7.6 Multiblock Blow Molding . 104 4.7.7 Coextrusion Blow Molding Techniques . 104 4.7.8 Sequential Extrusion . 104 4.7.9 Molds for Blow Molding . 105 4.7.9.1 Basic Features . 105 4.7.9.2 Pinch-Off Zone . 105 4.7.9.3 Blowing and Calibrating Devices . 106 4.7.9.4 Venting and Surface Finish . 106 4.7.9.5 Cooling . 107 4.7.10 Examples of Blow Molded Parts . 108 4.8 Rotational Molding . 108 4.8.1 Background . 108 4.8.2 Basic Process Technology . 109 4.8.3 Rotational Molding Equipment . 110 4.8.3.1 Batch Systems . 111 4.8.3.2 Carousel Machines . 111 4.8.3.3 Shuttle Machines . 112 4.8.3.4 Clamshell Machines . 112 4.8.4 Equipment and Process Design . 112 4.8.4.1 Molds . 112 4.8.4.2 Mold Surface Preparation . 114 4.8.5 Operation of Rotomolding Processes . 114 4.8.5.1 Oven Dwell Time . 115 4.8.5.2 Cooling Cycle . 117 4.8.5.3 Venting . 117 4.8.5.4 Part Stripping . 117 4.8.5.5 Rotation Rate and Ratio . 118 4.8.6 Rotolining Process . 118 4.8.7 Melting of Polymer and Part Formation . 119 4.8.8 Troubleshooting . 120 4.8.9 Conclusion . 120 4.9 Foaming of Thermoplastics . 121 4.9.1 Introduction . 121 4.9.2 Background . 121 x Contents 4.9.3 Foaming Technology . 121 4.9.3.1 Mechanical Foaming . 122 4.9.3.2 Chemical Foaming . 122 4.9.3.3 Physical Foaming . 122 4.9.4 Foam Manufacturing Processes . 123 4.10 Thermoforming . 124 4.10.1 Process Basics . 124 4.10.2 Process Factors . 125 4.10.2.1 Forming Force . 126 4.10.2.2 Mold Type . 127 4.10.2.3 Sheet Prestretch . 127 4.10.2.4 Material Input . 128 4.10.2.5 Process Phase . 128 4.10.2.6 Heating . 128 4.11 Calendering . 129 4.12 Secondary Manufacturing Processes . 129 4.12.1 Film and Sheet Orientation . 129 4.12.1.1 Machine Direction Orientation . 130 4.12.1.2 Transverse Direction Orientation . 131 4.12.1.3 Biaxial Orientation . 131 4.12.1.4 Heat Shrinkable Films and Tubing . 132 4.12.2 Welding . 133 4.12.2.1 Heated Tool Welding . 133 4.12.2.2 Hot Gas Welding . 133 4.12.2.3 Ultrasonic Welding . 134 4.12.2.4 Spin Welding . 135 4.12.2.5 Infrared Welding . 136 4.12.2.6 High Frequency Welding . 136 4.12.2.7 Vibration Welding . 137 4.12.2.8 Induction Welding . 137 4.12.2.9 Microwave Welding . 138 4.12.2.10Other Welding Methods . 139 4.12.3 Adhesive Bonding . 141 4.12.3.1 Principles of Adhesive Bonding . 141 4.12.3.2 Methods of Surface Treatment . 142 4.12.3.3 Types of Polymeric Adhesives . 145 4.12.3.4 Application of Adhesives . 146 4.12.3.5 Formation of an Adhesive Bond . 146 4.12.3.6 Measurement of the Bond Strength . 146 4.12.4 Mechanical Fastening . 147 4.12.5 Decorating . 148 4.12.5.1 Appliqués . 148 4.12.5.2 Painting . 148 4.12.5.3 In-Mold Decorating . 148 4.12.5.4 Metallization . 148 4.12.5.5 Printing . 149 4.12.5.6 Other Decorating Processes . 150 4.12.6 Cross-Linking . 150 4.13 General Processing Technology of TPEs . 150 4.13.1 Compounding of TPEs . 150 4.13.2 Injection Molding . 151 4.13.2.1 Overmolding . 152 4.14 Process Simulation . 153 4.15 Product Development and Testing . 153 References . 154 5 Styrenie Block Copolymers . 161 5.1 Introduction . 161 5.2 Polystyrene-Polydiene Block Copolymers . 162 Contents 5.2.1 Synthesis of Polystyrene-Polydiene Block Copolymers . 162 5.2.2 Morphology of Polystyrene-Polydiene Block Copolymers . 163 5.2.3 Critical Molecular Weight for Domain Formation . 164 5.2.4 Properties of Polystyrene-Polydiene Block Copolymers . 165 5.2.4.1 Structure-Property Relationships . 165 5.2.4.2 Tensile Properties . 166 5.2.4.3 Viscous and Viscoelastic Properties . 166 5.2.4.4 Solution Properties . 167 5.2.4.5 Swelling . 168 5.2.5 Formulating Styrenie TPEs . 168 5.2.5.1 Formulating S-B-S Block Copolymers . 168 5.2.5.2 Formulating S-EB-S Block Copolymers . 169 5.2.6 Compounding . 170 5.2.6.1 Melt Mixing . 170 5.2.6.2 Dry Blending . 170 5.2.6.3 Solution Mixing . 170 5.2.7 Processing of Compounds from SBCs . 171 5.2.7.1 Extrusion . 171 5.2.7.2 Injection Molding . 172 5.2.7.3 Blow Molding . 173 5.2.7.4 Thermoforming . 173 5.2.7.5 Compression Molding . 173 5.2.7.6 Bonding and Sealing . 173 5.3 SBCs Synthesized by Carbocationic Polymerization . 173 5.3.1 The Polymerization Process . 173 5.3.2 Properties of S-IB-S Block Copolymers . 174 References . 175 Thermoplastic Elastomers Prepared by Dynamic Vulcanization . 179 6.1 Introduction . 179 6.2 The Dynamic Vulcanization Process . 180 6.3 Properties of Blends Prepared by Dynamic Vulcanization . 181 6.3.1 TPVs Based on Polyolefins . 181 6.3.1.1 TPVs from EPDM-Polyolefin Blends . 181 6.3.1.2 TPVs from Diene Rubbers and Polyolefins . 181 6.3.1.3 TPVs from Butyl and Halobutyl Rubber and PP Resins . 182 6.3.1.4 TPVs from Butadiene-Acrylonitrile Rubber and Polyamides. 182 6.3.1.5 TPVs Based on Polyacrylate Rubber and Polyamides. 185 6.4 Processing and Fabrication of TPVs . 185 6.4.1 Rheology . 185 6.4.2 Extrusion . 185 6.4.3 Injection Molding . 186 6.4.4 Compression Molding . 186 6.4.5 Blow Molding . 187 6.4.6 Thermoforming . 187 6.4.7 Calendering . 187 6.4.8 Extrusion Foaming . 187 6.4.9 Bonding of TPVs . 188 References . 189 Polyolefin-Based Thermoplastic Elastomers . 191 7.1 Introduction . 191 7.2 Thermoplastic Polyolefin Blends . 191 7.2.1 Compounding of TPOs . 193 7.3 Morphology . 193 7.4 Properties of TPOs . 193 7.4.1 Mechanical Properties of TPOs . 193 7.4.1.1 Stress-Strain Properties . 193 7.4.2 Service Temperatures . 194 7.4.3 Weathering . 195 xii Contents 7.4.4 Chemical Resistance . 195 7.4.5 Adhesion . 195 7.4.6 Electrical Properties . 195 7.5 Processing of TPOs . 195 7.5.1 Injection Molding . 196 7.5.1.1 Equipment and Process Conditions . 196 7.5.1.2 Mold Design . 196 7.5.2 Extrusion . 196 7.5.2.1 Equipment and Process Conditions . 196 7.5.3 Other Processing Methods . 197 7.6 Painting of TPOs . 198 References . 198 8 Thermoplastic Elastomers Based on Halogen-Containing Polyolefins . 201 8.1 Introduction . 201 8.2 Blends of PVC with Nitrite Rubber (NBR). 201 8.2.1 Melt Compounding and Processing . 202 8.2.2 Physical and Mechanical Properties . 202 8.2.3 Other Properties . 202 8.3 Blends of PVC with Other Elastomers . 203 8.3.1 Blends of PVC with Copolyester Elastomers . 203 8.3.2 Blends of PVC with Thermoplastic Polyurethane Elastomers . 204 8.4 Melt-Processable Rubber . 204 8.4.1 Physical and Mechanical Properties . 205 8.4.2 Chemical Resistance . 206 8.4.3 Weather and Flame Resistance . 206 8.4.4 Electrical Properties . 207 8.4.5 Grades of MPR . 207 8.4.6 Blends with Other Polymers . 208 8.4.7 Processing . 209 8.4.7.1 Injection Molding . 209 8.4.7.2 Extrusion . 209 8.4.7.3 Extrusion Blow Molding . 210 8.4.7.4 Calendering . 211 8.4.7.5 Compression Molding . 211 8.4.7.6 Bonding and Welding . 212 8.5 Thermoplastic Fluorocarbon Elastomer . 212 References . 213 9 Thermoplastic Polyurethane Elastomers . 215 9.1 Introduction . 215 9.2 Synthesis of TPUs . 216 9.2.1 Raw Materials for TPUs . 216 9.2.1.1 Raw Materials for Soft Segments . 216 9.2.1.2 Raw Materials for Hard Segments . 216 9.2.1.3 Other Raw Materials . 217 9.3 Morphology . 218 9.3.1 Morphology of Hard Segments . 218 9.4 Thermal Transitions . 218 9.5 Properties . 219 9.5.1 Mechanical Properties . 219 9.5.1.1 Stress-Strain Properties . 221 9.5.1.2 Compression Set . 221 9.5.1.3 Hardness . 221 9.5.1.4 Stiffness . 221 9.5.1.5 Dynamic Properties . 221 9.5.2 Thermal Properties . 222 9.5.3 Hydrolytic Stability . 222 9.5.4 Chemical Resistance . 223 9.5.5 Abrasion Resistance . 223 Contents 9.5.6 Ultraviolet Stability . 223 9.5.7 Electrical Properties . 223 9.6 Processing of TPUs . 223 9.6.1 Rheology of TPUs . 224 9.6.2 Drying . 224 9.6.3 Injection Molding . 224 9.6.3.1 Operating Conditions . 227 9.6.3.2 Insert Molding . 228 9.6.3.3 The Use of Regrind . 228 9.6.4 Extrusion . 228 9.6.4.1 Screw Design . 228 9.6.4.2 Die Design . 229 9.6.4.3 Extrusion Temperature Profiles . 229 9.6.4.4 Extrusion Methods Used . 229 9.6.4.5 PostExtrusion Conditioning . 229 9.6.5 Calendering . 229 9.6.6 Blowmolding . 229 9.6.7 Thermoforming . 229 9.7 Blends of TPU with Other Polymers . 230 9.8 Bonding and Welding . 230 9.8.1 Heat Welding and Sealing . 230 9.8.2 Solvent and Adhesive Bonding . 230 References . 230 10 Thermoplastic Elastomers Based on Polyamides. 235 10.1 Introduction . 235 10.2 Synthesis . 235 10.2.1 Synthesis of PEAs, PEEAs, and PCEAs . 235 10.2.2 Synthesis of PE-b-As . 236 10.2.3 Synthesis of Other Thermoplastic PolyamideElastomers . 236 10.3 Morphology . 237 10.4 Structure-Property Relationships . 238 10.5 Physical and Mechanical Properties . 238 10.5.1 Tensile Properties . 238 10.5.2 Properties at Elevated Temperatures . 239 10.5.3 Tear Strength . 241 10.5.4 Abrasion Resistance . 241 10.5.5 Compression Set . 242 10.5.6 Flex Properties . 242 10.6 Chemical and Solvent Resistance . 242 10.7 Electrical Properties . 243 10.8 Other Properties . 243 10.8.1 Weatherability . 243 10.8.2 Adhesion . 243 10.9 Compounding . 243 10.10 Processing . 244 10.10.1 Rheology . 244 10.10.2 Drying . 244 10.10.3 Injection Molding . 244 10.10.4 Extrusion . 245 10.10.5 Other Processing Methods . 245 10.11 Bonding and Welding . 245 10.11.1 Bonding . 245 10.11.2 Welding . 246 References . 246 11 Thermoplastic Polyether Ester Elastomers . 249 11.1 Introduction . 249 11.2 Synthesis . 249 11.3 Morphology . 249 xiv Contents 11.4 Properties of Commercial COPEs . 250 11.4.1 Stress-Strain Properties . 250 11.4.2 Dynamic Properties . 250 11.4.3 Cut Growth Resistance . 251 11.4.4 Impact Resistance . 251 11.4.5 Responses to Changes of Temperature . 252 11.4.6 Abrasion Resistance . 252 11.4.7 Electrical Properties . 253 11.4.8 Chemical Resistance . 253 11.4.9 Other Properties . 254 11.5 COPE Blends . 255 11.5.1 Blends of Different Grades of COPE . 255 11.5.2 Blends with Other Polymers . 255 11.6 Processing . 255 11.6.1 General . 255 11.6.2 Melt Rheology . 256 11.6.3 Injection Molding . 257 11.6.3.1 Screw Design . 257 11.6.3.2 Clamping Force . 257 11.6.3.3 Molding Conditions . 257 11.6.3.4 Molds . 257 11.6.3.5 Shrinkage . 258 11.6.3.6 Overmolding (Insert Molding) . 259 11.6.4 Extrusion . 259 11.6.4.1 Screw Design . 259 11.6.4.2 Processing Conditions . 259 11.6.5 Blow Molding . 261 11.6.5.1 Processing Conditions . 261 11.6.6 Melt Casting . 261 11.6.7 Rotational Molding . 262 11.6.8 Welding and Bonding . 262 11.6.8.1 Welding . 262 11.6.8.2 Bonding and Adhesion . 262 11.6.9 Finishing . 262 References . 263 12 lonomeric Thermoplastic Elastomers . 265 12.1 Introduction . 265 12.2 Synthesis . 265 12.3 Morphology . 265 12.4 Properties and Processing . 266 References . 267 13 Other Thermoplastic Elastomers . 269 13.1 Elastomeric Star Block Copolymers . 269 13.1.1 General Methods for the Synthesis of Star Copolymers . 269 13.1.2 Physical Properties of Star Block Copolymers . 270 13.2 TPEs Based on Interpenetrating Networks . 270 13.2.1 Synthesis of Thermoplastic IPNs . 271 13.2.2 Properties and Processing of Thermoplastic IPNs . 271 13.3 ТРЕ Based on Polyacrylates . 272 13.3.1 Synthesis of Triblock Copolymers Based on Methyl Methacrylate and Butadiene 272 13.3.2 Properties of M-B-M Triblock Copolymers . 272 13.3.3 Synthesis of Poly(MMA-řBA-MMA) Elastomers . 272 13.3.4 Synthesis of PolyiMMA-b-Alkylacrylate-o-MMA) . 272 13.3.5 Mechanical Properties of Fully Acrylic Triblock and Branched Block Copolymers 273 References . 273 Contents 14 Thermoplastic Elastomers Based on Recycled Rubber and Plastics . 277 14.1 Introduction . 277 14.2 EPDM Scrap . 277 14.3 Butadiene-acrylonitrile Rubber (NBR) Scrap . 277 14.4 Recycled Rubber . 277 14.5 Waste Latex . 278 14.6 Waste Plastics . 278 References . 278 15 Applications of Thermoplastic Elastomers . 281 15.1 Introduction . 281 15.2 Applications for Styrenie TPEs . 281 15.2.1 SBCs as Replacement of Vulcanized Rubber . 282 15.2.2 SBCs in Adhesives, Sealants, and Coatings . 283 15.2.2.1 Solution Behavior of SBCs . 286 15.2.2.2 Examples of Applications . 287 15.2.3 Blends of SBC with Other Polymers . 288 15.2.3.1 Blends of SBCs and PS . 288 15.2.3.2 Blends of SBCs and Polyolefins . 288 15.2.3.3 Blends of SBCs with Thermosets . 288 15.2.4 Modified Asphalt . 289 15.3 Applications of Thermoplastic Vulcanizates (TPVs) and ETPVs . 289 15.3.1 Introduction . 289 15.3.2 Comparison of TPVs and Thermoset Rubber Materials . 289 15.3.3 Commercial Applications of TPVs . 290 15.3.3.1 Automotive Applications . 290 15.3.3.2 Hose, Tubing, and Sheet . 290 15.3.3.3 Mechanical Rubber Goods and Consumer Goods . 291 15.3.3.4 Architectural and Construction . 292 15.3.3.5 Electrical and Electronics . 292 15.3.3.6 Medical and Food Contact . 293 15.4 Applications of Thermoplastic Polyolefin Elastomers (TPOs) . 294 15.4.1 Automotive . 294 15.4.2 Wire and Cable . 294 15.4.3 Mechanical Goods . 294 15.4.4 Other Applications . 295 15.5 Applications of Melt-Processable Rubber (MPR) . 296 15.5.1 Industrial Hose . 296 15.5.2 Automotive . 296 15.5.3 Wire and Cable . 297 15.5.4 Elastomeric Sheeting . 297 15.5.5 Molded Goods . 297 15.5.6 Fabric Coating . 297 15.5.7 Other Applications . 298 15.6 Applications of PVC Blends . 298 15.6.1 PVC-Nitrile Rubber (NBR) Blends . 298 15.6.2 PVC-Copolyester Elastomer (COPE) Blends . 299 15.6.3 PVC-TPU Blends . 299 15.7 Application of TPUs . 300 15.7.1 Introduction . 300 15.7.2 Commercial Applications . 300 15.7.2.1 Automotive . 300 15.7.2.2 Hose and Tubing . 300 15.7.2.3 Wire and Cable . 300 15.7.2.4 Wheels and Casters . 301 15.7.2.5 Film and Sheet . 302 15.7.2.6 Adhesives, Sealants, and Coatings . 302 15.7.2.7 Mechanical Goods, Consumer, and Sporting Goods . 302 15.7.2.8 Medical Applications . 303 xvi Contents 15.7.2.9 Blends with Other Polymers . 304 15.8 Application of Thermoplastic Polyether Ester Elastomers . 304 15.8.1 General Properties and Processing . 304 15.8.2 Commercial Applications . 304 15.8.2.1 Automotive Applications . 304 15.8.2.2 Electrical/Electronic Applications . 304 15.8.2.3 Extruded and Molded Mechanical Goods . 305 15.8.2.4 Other Applications . 305 15.9 Applications of Polyamide TPEs . 306 15.9.1 Introduction . 306 15.9.2 Commercial Applications . 307 15.9.2.1 Automotive . 307 15.9.2.2 Sporting Goods . 307 15.9.2.3 Wire and Cable . 308 15.9.2.4 Technical Goods . 308 15.9.2.5 Medical Applications . 309 15.9.2.6 Other Applications . 309 15.10 Applications of lonomeric TPEs . 310 15.10.1 Introduction . 310 15.10.2 Commercial Applications . 311 15.10.2.1 Adhesives . 311 15.10.2.2Other Applications . 311 15.11 Applications of Other TPEs . 311 15.11.1 Applications of Star Block Copolymers . 311 15.11.2 Applications of Thermoplastic Interpénétration Networks (IPNs) . 312 15.11.3 Applications of Special Blends and Proprietary Compounds . 313 References . 313 16 Recycling of Thermoplastic Elastomers . 317 16.1 Introduction . 317 16.2 Recycling Methods for Thermoplastic Elastomers (TPEs) . 317 References . 318 17 Recent Developments and Trends . 319 17.1 Current State . 319 17.2 Drivers for the Growth of TPEs . 319 17.3 Trends in Technical Development . 319 17.3.1 Trends in Development and Uses of Individual TPEs . 319 17.4 Other New Developments . 321 References . 321 Appendix 1 : Books, Conferences, Major Review Articles . 323 Appendix 2: Major Suppliers of Thermoplastic Elastomers and Compounds . 325 Appendix 3: ISO Nomenclature for Thermoplastic Elastomers . 329 Appendix 4: Processing Data Sheets for Commercial Thermoplastic Elastomers and Compounds . 333 Appendix 5: Technical Data Sheets for Commercial Thermoplastic Elastomers and Compounds . 345 Appendix 6: Recent ТРЕ Patents . 379 Glossary . 381 Index . 391
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