Verfügbarkeit: Mold-making handbook

Mold-making handbook:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English German
Veröffentlicht:	Munich [u.a.] Hanser 2013
Ausgabe:	3. ed.
Schlagworte:	Plastics > Molds Werkzeugbau Kunststoffverarbeitung Formenbau Kunststoffverarbeitungswerkzeug Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXX, 701 S. zahlr. Ill., graph. Darst. 25 cm
ISBN:	9781569904466 9781569905500

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MARC


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Datensatz im Suchindex

_version_	1804151463967981568
adam_text	IMAGE 1 CONTENTS ABOUT THE BOOK V CONTRIBUTORS VI EDITOR S PREFACE TO THE 3RD EDITION X 1 MOLDS FOR VARIOUS PROCESSING METHODS 1 1.1 INJECTION MOLDS 1 P. WIPPENBECK 1.1.1 GENERAL 1 1.1.2 INJECTION MOLDING PROCESS 1 1.1.3 DESIGN OF THE MOLDED PART 7 1.1.4 BASIC MOLD STRUCTURE 9 1.1.5 TYPES OF EJECTION 10 1.1.5.1 PRODUCTS WITHOUT UNDERCUTS 10 1.1.5.2 PRODUCTS WITH EXTERNAL UNDERCUTS 13 1.1.5.3 PRODUCT WITH INTERNAL UNDERCUTS 17 1.1.5.4 PRODUCTS WITH INTERNAL THREADS 19 1.1.6 GATE TECHNOLOGY 21 1.1.6.1 GATE DESIGN 21 1.1.6.2 SOLIDIFYING RUNNER, REMAINING AT THE MOLDED PART 23 1.1.6.3 AUTOMATICALLY SEPARATED RUNNER 26 1.1.6.4 PASS THROUGH CHANNELS 29 1.1.6.5 HOTRUNNER MOLDS 31 1.1.6.6 HOTRUNNER NOZZLES 34 1.1.7 VENTING OF THE CAVITY 37 1.1.8 TEMPERATURE CONTROL 39 1.1.9 SPECIAL DESIGNS 41 1.1.9.1 STACK MOLDS 41 1.1.9.2 INJECTION-COMPRESSION MOLDS 43 1.1.9.3 MULTI-COMPONENT TECHNOLOGY 44 HTTP://D-NB.INFO/1022144944 IMAGE 2 1.1.9.4 OUTSERT TECHNOLOGY 48 1.1.9.5 MOLDS FOR THERMOSETS AND ELASTOMERS 49 1.2 COMPRESSION AND TRANSFER MOLDS 52 /. BERTHOLD 1.2.1 INTRODUCTION 52 1.2.2 COMPRESSION MOLDS 53 1.2.2.1 GENERAL INFORMATION 53 1.2.2.2 REQUIREMENTS 55 1.2.2.3 COMPONENTS OF A COMPRESSION MOLD 56 1.2.3 TRANSFER MOLDING 56 1.2.3.1 GENERAL 56 1.2.3.2 REQUIREMENTS 57 1.2.3.3 STRUCTURE OF A TRANSFER MOLD 57 1.2.4 MAKING COMPRESSION MOLDS 58 1.2.4.1 MACHINING 59 1.2.5 MOLDDESIGN 59 1.2.5.1 TYPES OF MOLDS 60 1.2.5.1.1 SMALL-SERIES MOLD 60 1.2.5.1.2 TEST MOLD 60 1.2.5.1.3 STANDARD MOLD UNIT 60 1.2.5.1.4 CONVENTIONAL COMPRESSION MOLD 62 1.2.5.2 STRUCTURAL MOLD DESIGNS 62 1.2.5.2.1 POSITIVE MOLD 62 1.2.5.2.2 POSITIVE MOLD WITH LANDS 63 1.2.5.2.3 MULTI-CAVITY MOLD WITH A COMMON LOADING CHAMBER 64 1.2.5.2.4 MULTI-CAVITY MOLD WITH INDIVIDUAL LOADING CHAMBERS 64 1.2.5.2.5 MOLD WITH LATERAL CORE PULLER 65 1.2.5.2.6 SPLIT MOLD 66 1.2.5.2.7 HINGED SPLIT-CAVITY MOLD 66 1.2.5.2.8 MOLD WITH INSERTS 67 1.2.5.2.9 UNSCREWING MOLD 67 1.2.5.3 GENERAL ASPECTS 68 1.2.6 SHEET MOLDING COMPOUND (SMC)-MOLDS 69 1.2.6.1 INTRODUCTION 69 1.2.6.2 MOLDDESIGN 70 1.2.6.2.1 MOLD ALIGNMENT 72 1.2.6.2.2 EJECTOR MECHANISM : 73 1.2.6.2.3 UNDERCUTS 74 1.2.6.2.4 HEATING 75 1.2.7 GMT/LFT MOLDS 75 1.2.7.1 INTRODUCTION 75 IMAGE 3 1.2.7.2 PROCESS TECHNOLOGY 76 1.2.7.2.1 PRESSURE FORMING 76 1.2.7.2.2 FLOW MOLDING 76 1.2.7.3 MOLD CONSTRUCTION 76 1.2.8 PRACTICAL EXAMPLE 77 1.3 MOLDS FOR POLYURETHANE PRODUCTS 78 U. KNIPP, U. MAIER 1.3.1 PRODUCTS, PROCESSES, APPLICATIONS, SHRINKAGE, AND MOLD CARRIERS 79 1.3.1.1 MATERIAL COMPONENTS, PROCESSING, APPLICATIONS 79 1.3.1.2 SHRINKAGE 80 1.3.1.3 MOLD CARRIERS 81 1.3.2 MOLDS FOR LOW-DENSITY PUR FOAM 82 1.3.2.1 PROCESSING PARAMETERS 83 1.3.2.1.1 REACTION TEMPERATURE 83 1.3.2.1.2 INTERNAL PRESSURE IN MOLDS 84 1.3.2.2 FILLING TECHNOLOGY 85 1.3.2.2.1 OPEN-MOLD FILLING METHOD 85 1.3.2.2.2 CLOSED-MOLD FILLING METHOD 86 1.3.2.3 VENTING 87 1.3.2.4 MOLD DESIGN 89 1.3.2.4.1 CLAMPING 91 1.3.2.4.2 CLOSING AND OPENING MECHANISM, DEMOLDING AIDS 92 1.3.2.4.3 FASTENING OF INSERTS 93 1.3.2.5 MOLDS FOR FLEXIBLE PUR FOAMS 93 1.3.2.6 MOLDS FOR SEMIRIGID FOAMS 95 1.3.2.7 MOLDS FOR RIGID PUR FOAMS 96 1.3.3 MOLDS FOR PUR INTEGRAL SKIN FOAMS (SELF-SKINNING FOAMS).. 99 1.3.3.1 INFLUENCE OF PROCESSING ON MOLD DESIGN 99 1.3.3.1.1 TEMPERATURE CONTROL 99 1.3.3.1.2 SEALING AT PARTING LINE, EJECTORS, AND SIDE CORES/SLIDERS .. 100 1.3.3.2 GATING 101 1.3.3.3 VENTING 103 1.3.3.4 MOLDS FOR FLEXIBLE INTEGRAL SKIN FOAMS 105 1.3.3.5 MOLDS FOR SEMIRIGID INTEGRAL SKIN FOAMS 105 1.3.3.6 MOLDS FOR RIGID INTEGRAL SKIN FOAMS 106 1.3.4 MOLDS FOR MICROPOROUS PUR PRODUCTS 107 1.3.4.1 MOLDS FOR FLEXIBLE, MICROPOROUS PUR PRODUCTS 108 1.3.4.2 MOLDS FOR TOUGH, RIGID, MICROPOROUS PUR (RIM) PRODUCTS . 108 1.3.4.3 MOLDS FOR RIGID, MICROPOROUS PUR PRODUCTS 109 1.3.5 MOLDS FOR PUR CASTING SYSTEMS 110 IMAGE 4 1.4 BLOW MOLDS 112 0. EISELEN 1.4.1 PROCESS DESCRIPTION 112 1.4.1.1 DIFFERENT TYPES OF BLOW MOLDING PROCESSES 112 1.4.1.2 EXTRUSION BLOW MOLDING TECHNOLOGY 113 1.4.1.2.1 CONTINUOUS EXTRUSION 113 1.4.1.2.2 INTERMITTENT PARISON GENERATION 114 1.4.1.2.3 PARISON GENERATION 116 1.4.1.2.4 DIFFERENT BLOW UP METHODS 117 1.4.1.2.5 SPECIAL PROCEDURES 119 1.4.2 EXTRUSION BLOW MOLDS 120 1.4.2.1 MOLD CONSTRUCTION 120 1.4.2.1.1 PROTOTYPE BLOW MOLDS MADE FROM CAST RESIN 120 1.4.2.1.2 PROTOTYPE BLOW MOLDS WITH METAL-COATED MODEL AND METAL-FILLED CAST RESIN 120 1.4.2.1.3 BLOW MOLDS MADE FROM CAST METALS 120 1.4.2.1.4 MILLED PROTOTYPE MOLDS 121 1.4.2.1.5 PRODUCTION BLOW MOLDS 121 1.4.2.2 CONSTRUCTION GUIDELINES 123 1.4.2.2.1 ALIGNMENT OF BLOW MOLD 123 1.4.2.2.2 CUTTING EDGES 124 1.4.2.2.3 CLAMP STOPS 126 1.4.2.2.4 VENTING 126 1.4.2.3 BLOW MOLD COOLING 126 1.4.2.4 ACCESSORIES FOR BLOW MOLDS 129 1.4.2.5 INTEGRATED POSTMOLDING PROCESSES 130 1.4.2.5.1 POSTCOOLING WITH A COOLING FIXTURE 130 1.4.2.5.2 MANUFACTURING THE FINISHED PRODUCT IN THE BLOW MOLDING MACHINE 131 1.4.3 INJECTION BLOW MOLDING AND DIP BLOW MOLDING 133 1.4.4 USE OF COMPUTERS FOR BLOW MOLDING 135 1.5 MOLDS FOR THERMOFORMING 138 P. SCHWARZMANN 1.5.1 GENERAL INFORMATION 138 1.5.2 PROCESS IN THERMOFORMING 139 1.5.3 THE MOLD AND THE FORMAT PARTS 139 1.5.4 POSITIVE OR NEGATIVE FORMING? 141 1.5.5 DESIGN GUIDELINES FOR THERMOFORMING MOLDS 141 1.5.5.1 MATERIAL CHOICE 141 1.5.5.2 MOLDING SHRINKAGE 144 1.5.5.3 DRAFT ANGLES 145 IMAGE 5 1.5.5.4 RADII 145 1.5.5.5 SURFACE ROUGHNESS 147 1.5.5.6 ASSISTING PLUG 147 1.5.5.7 VENTING DESIGN 150 1.5.5.8 CAVITIES 152 1.5.5.9 AVOIDANCE OF EDGE WEBBING IN POSITIVE MOLDS 152 1.5.5.10 VACUUM LOSSES WHEN DESIGNING MOLD BOTTOM WRONGLY- 153 1.5.5.11 SUGGESTIONS FOR TEMPERATURE CONTROL OF HOT FORMING MOLDS 154 1.5.6 SUBSTRUCTURE OF HOT FORMING MOLDS 155 1.5.6.1 VACUUM FORMING ON A SHEET PROCESSING MACHINE 155 1.5.6.2 PRESSURE AIR FORMING WITH FORMING/PUNCHING MOLD WITH SHEAR CUTTING 156 1.5.6.3 PRESSURE AIR FORMING WITH FORMING/PUNCHING MOLD WITH STEEL RULE DIE 157 1.6 ROTATIONAL AND SLUSH MOLDS 158 0. WANDRES, R. HENTRICH 1.6.1 PROCESS DESCRIPTION 158 1.6.2 STRENGTH OF A ROTOMOLDED PART 158 1.6.3 MOLD REQUIREMENTS 159 1.6.4 NOMENCLATURE OF ROTATIONAL MOLDS 160 1.6.5 TYPES OF MOLDS 161 1.6.5.1 PROTOTYPE ROTATIONAL MOLDS 161 1.6.5.2 SHEET STEEL ROTATIONAL MOLDS 162 1.6.5.3 ALUMINUM ROTATIONAL MOLDS 163 1.6.5.4 ELECTROPLATED MOLDS 165 1.6.6 MOLD CONSTRUCTION 168 1.6.6.1 CLOSING AND CLAMPING OF MOLDS 168 1.6.6.2 MOLD WALL THICKNESS AND CENTERING 169 1.6.6.3 MOLD SURFACES AND CHANGES 169 1.6.7 MOLD PERIPHERAL 170 1.6.7.1 MOLD VENTING 170 1.6.7.2 NON-PERMANENT RELEASE AGENT 171 1.6.7.3 MOLD COATING (PERMANENT RELEASE COATINGS) 171 1.6.7.4 THREADS 172 1.6.7.5 OTHER INSERTS 172 1.6.8 POST-PROCESSING OF ROTOMOLDED PLASTIC PRODUCTS 172 1.6.8.1 OPENINGS 172 1.6.8.2 DECORATION OF ROTOMOLDED PLASTIC PRODUCTS 172 1.6.9 ELECTROPLATED MOLD FOR THE SLUSH MOLDING PROCESS 173 IMAGE 6 MOLDS FOR THERMOPLASTIC FOAMS 179 N. REUBER 1.7.1 THERMOPLASTIC FOAMS 179 1.7.2 CONVENTIONAL MOLDING 182 1.7.2.1 PROCEDURE DESCRIPTION 182 1.7.2.1.1 FILLING 183 1.7.2.1.2 EXPANDING AND FUSING 184 1.7.2.1.3 COOLING AND STABILIZING 186 1.7.2.1.4 DEMOLDING 187 1.7.2.2 SPECIAL PROCEDURE 188 1.7.2.2.1 PROCESS WITH NON-PERFORATED MOLDS 188 1.7.2.2.2 LOW TEMPERATURE HORIZONTAL (LTH) PROCESS 188 1.7.2.2.3 TRANSFER TECHNOLOGY 189 1.7.2.2.4 MULTIPLE-DENSITY-PROCESS 189 1.7.3 MOLD CONSTRUCTION 190 1.7.3.1 ESSENTIAL REQUIREMENTS ON THE MOLD CONSTRUCTION 190 1.7.3.2 MOLD MATERIALS 193 1.7.3.3 MOLD EQUIPMENT 193 1.7.3.4 SPECIAL MOLD DESIGNS 196 1.7.3.4.1 MONO-BLOCK MOLDS 196 1.7.3.4.2 MOLDS WITH ADJUSTABLE WALLS (GRADUALLY OR CONTINUOUSLY) FOR INSULATION PLATES AND SMALL BLOCKS 196 1.7.3.4.3 MOLD FOR THE THIN-WALLED TECHNOLOGY 197 1.7.4 BLOCK MOLDS 197 1.7.4.1 PROCESS DISCRIPTION 197 1.7.4.2 CONSTRUCTIVE DESIGN 199 MOLDS FOR CONTINUOUS FIBRE REINFORCED POLYMER COMPOSITES 200 P. MITSCHANG, R. SCHLEDJEWSKI, A. K. SCHLARB 1.8.1 GENERAL OBJECTIVE 200 1.8.2 MOLDS FOR THE VACUUM-AUTOCLAVE-TECHNOLOGY 201 1.8.2.1 GENERAL OBJECTIVE 201 1.8.2.2 PREPREG-LOW PRESSURE-AUTOCLAVE TECHNOLOGY 202 1.8.2.3 MOLDS FOR THE SOFT CORE TECHNOLOGY 202 1.8.2.3.1 MASTER MODEL 202 1.8.2.3.2 MOLD CAVITY 203 1.8.2.3.3 PRODUCT SUBSTITUTE 204 1.8.2.3.4 ELASTIC MAT : 205 1.8.2.3.5 MANUFACTURING OF PRODUCTS 205 1.8.2.4 MOLDS FOR THE HARD-CORE TECHNOLOGY 207 1.8.2.4.1 MOLD CONSTRUCTION AND MATERIALS 207 1.8.2.4.2 MANUFACTURE OF PRODUCTS 207 IMAGE 7 1.8.2.5 MOLDS FOR AUTOMATED TAPE LAYING 208 1.8.3 CONTINUOUS FIBER-REINFORCED THERMOPLASTICS 209 1.8.3.1 GENERAL INFORMATION AND FUNDAMENTALS OF THE PROCESSES .. 209 1.8.3.2 MOLDS FOR SEMIFINISHED PART PRODUCTION 209 1.8.3.2.1 GENERAL INFORMATION AND FUNDAMENTALS OF THE PROCESSES .. 209 1.8.3.2.2 MOLDS FOR FLAT SEMIFINISHED PLATES 210 1.8.3.2.3 MOLDS FOR PROFILES 212 1.8.3.3 MOLDS FOR FORMING TECHNOLOGY (THERMOFORMING) 213 1.8.3.3.1 GENERAL INFORMATION AND FUNDAMENTALS OF THE PROCESSES ..213 1.8.3.3.2 MOLDS FOR THE STAMP FORMING 214 1.8.3.3.3 MOLDS FOR THE DIAPHRAGM TECHNOLOGY 217 1.8.3.3.4 MOLDS FOR SANDWICH COMPONENTS 218 1.8.3.3.5 MOLDS FOR THE PROCESS STEP INTEGRATION 219 1.8.3.4 MOLDS FOR THE WELDING TECHNOLOGY 220 1.8.4 MOLDS FOR THE RESIN INJECTION 221 1.8.4.1 GENERAL INFORMATION AND FUNDAMENTALS OF THE PROCESS - 221 1.8.4.2 MOLDS FOR THE PREFORM TECHNOLOGY 223 1.8.4.2.1 BINDER-FORMING MOLDS 223 1.8.4.2.2 STITCHING TECHNOLOGY MOLDS 225 1.8.4.3 MOLDS FOR VACUUM ASSISTED PROCESSES 227 1.8.4.3.1 MOLDS WITH A FIXED AND FLEXIBLE MOLD HALF. 227 1.8.4.3.2 MOLDS WITH TWO FIXED MOLD HALVES 230 1.8.4.4 MOLDS FOR PRESSURE-ASSISTED PROCESSES 232 1.8.4.5 MOLDS FOR HOLLOW COMPONENTS 235 1.8.5 MOLDS FOR THE WINDING TECHNOLOGY 238 1.8.5.1 GENERAL INFORMATION AND FUNDAMENTALS OF THE PROCESS 238 1.8.5.2 MOLDS FOR ROTATIONALLY SYMMETRICAL COMPONENTS 238 1.9 MOLDS FOR ELASTOMER PROCESSING 241 TH. BAUERNHANSL, K. ZOLLER 1.9.1 COMPRESSION MOLDING (CM) 242 1.9.2 TRANSFER MOLDING (TM) 244 1.9.3 INJECTION MOLDING (IM) 246 1.9.4 ADDITIONAL PROCESSES 250 1.9.4.1 PROCESS COMBINATIONS 250 1.9.4.2 GATE SYSTEMS 251 1.9.5 MOLD MAKING 254 1.9.5.1 TYPESOFMOLDS 255 1.9.5.2 MOLD DEVELOPMENT 255 IMAGE 8 1.10 MICRO INJECTION MOLDS 258 G. KONZILIA 1.10.1 GENERAL INFORMATION 258 1.10.1.1 INJECTION MOLDING PROCESS 258 1.10.1.2 MOLDED PART DESIGN 258 1.10.1.2.1 COOPERATION WITH CUSTOMERS 259 1.10.1.3 MATERIALS FOR INJECTION MOLDED PARTS 260 1.10.2 DESIGN 261 1.10.2.1 THE MICRO-INJECTION MOLD 261 1.10.2.1.1 GATE 261 1.10.2.1.2 DEMOLDINGAND EJECTION 262 1.10.2.1.3 VENTING 263 1.10.2.1.4 MOLD GUIDING AND CENTERING 264 1.10.2.1.5 TEMPERATURE CONTROL AND COOLING 265 1.10.2.2 SPECIAL PROCEDURES AND ALTERNATIVE PROCESSES 265 1.10.2.2.1 VARIOTHERM 265 1.10.2.2.2 INSERTION TECHNOLOGY 266 1.10.2.2.3 MULTI-COMPONENT AND ASSEMBLY INJECTION MOLDING 266 1.10.2.2.4 COMPRESSION INJECTION MOLDING 267 1.10.2.2.5 HOT EMBOSSING 267 1.10.2.3 ENVIRONMENT AND CONTINUING PROCESSES 268 1.10.3 MANUFACTURE 269 1.10.3.1 CONSTRUCTION 269 1.10.3.1.1 MATERIALS FOR CONSTRUCTIONAL PARTS 269 1.10.3.1.2 STANDARD PARTS 269 1.10.3.2 CAVITY STACKS 269 1.10.3.2.1 MATERIAL FOR CAVITY STACKS 270 1.10.4 MANUFACTURING TECHNOLOGIES 270 1.10.4.1 IN GENERAL 270 1.10.4.1.1 MECHANICAL MANUFACTURING TECHNOLOGIES 270 1.10.4.1.2 ALTERNATIVE MANUFACTURING PROCESSES 274 1.10.4.1.3 SURFACE TREATMENT AND REFINING 276 1.10.4.1.4 QUALITY ASSURANCE 277 1.10.5 INJECTION MOLDING MACHINE 277 1.10.6 MOLD MAINTENANCE 278 1.10.7 OUTLOOK 279 1.11 PROTOTYPE, SMALL AND PRE-SERIES MOLDS 280 R. HOFMANN 1.11.1 INTRODUCTION 280 1.11.2 INDIRECT PROTOTYPE MOLDING 280 1.11.2.1 VACUUM CASTING POLYURETHANE (PU) ON SILICONE MOLDS 280 IMAGE 9 1.11.2.1.1 VACUUM CASTING PU PROCESS 280 1.11.2.1.2 MANUFACTURE OF SILICONE MOLDS PU 283 1.11.2.2 VACUUM CASTING POLYAMIDE (PA) THROUGH SILICONE MOLDS... 284 1.11.2.3 SYNTHETIC RESIN MOLDS 287 1.11.2.3.1 POLYURETHANE CASTING WITH SYNTHETIC RESIN MOLDS 287 1.11.2.3.2 MANUFACTURE OF SYNTHETIC RESIN MOLDS 287 1.11.2.4 MANUFACTURE OF SYNTHETIC RESIN MOLDS FOR INJECTION MOLDING 290 1.11.2.5 MOLDS MANUFACTURED THROUGH GENERATIVE MANUFACTURING PROCEDURES ON THE EXAMPLE OF LASERCUSING-TECHNOLOGY . 292 1.11.2.6 ALUMINUM MOLDS 294 1.11.2.6.1 MANUFACTURE OF ALUMINUM MOLDS 294 1.11.2.6.2 ALUMINUM MOLDS WITH LASERCUSING LOOSE PARTS 295 1.11.2.6.3 ALUMINUM MATERIALS 295 2 MOLD DESIGN 301 2.1 DESIGN PROCESS 301 P. KARLINGER, F HINKEN 2.1.1 INTRODUCTION 301 2.1.1.1 INJECTION MOLDS 303 2.1.1.2 PHASES OF THE MOLD DESIGN 303 2.1.1.3 FROM THE OFFER TO THE DESIGN 307 2.1.1.4 THE DESIGN PROCESS IN INJECTION MOLDS 318 2.1.2 SIMULATION FOR INJECTION MOLD MAKING 323 2.1.2.1 GENERAL INFORMATION 323 2.1.2.2 THE TYPES OF MODELS 325 2.1.2.3 THE FLOW PATTERN 326 2.1.2.4 SHRINKAGE AND WARPAGE 328 2.1.2.5 THERMAL DESIGN 329 2.1.2.6 SUMMARY 331 2.2 STANDARDIZATION AND STANDARDS 332 J. GOCKEL, A. BRANDT 2.2.1 STANDARDIZATION FOR INJECTION MOLDING AND HOT RUNNER MOLDS 332 2.2.2 STANDARDS IN MOLD MAKING 335 2.2.2.1 MOLDS 336 2.2.2.2 STANDARDIZED GUIDE ELEMENT IN MOLD MAKING 341 2.2.2.3 STANDARDS FOR DEMOLDING 343 2.2.2.4 TEMPERATURE CONTROL 345 IMAGE 10 2.3 HOT AND COLD RUNNER TECHNOLOGY 349 D. PAULMANN, M. SANDER 2.3.1 ADVANTAGES OF USING THE HOT RUNNER TECHNOLOGY 349 2.3.2 DESIGN OF HOT RUNNER SYSTEMS AND HOT HALVES 351 2.3.3 APPLICATION AREAS AND EXAMPLES 352 2.3.3.1 HOT RUNNER SOLUTIONS FOR PACKAGING PARTS, CLOSURES, AND MISCELLANEOUS POLYOLEFIN APPLICATIONS 353 2.3.3.2 HOT RUNNER SOLUTIONS FOR TECHNICAL COMPONENTS 356 2.3.3.3 HOT RUNNER SOLUTION FOR SMALL AND MICRO INJECTION MOLDED PARTS 358 2.3.3.4 HOT RUNNER SOLUTIONS FOR MULTI-POINT GATING THROUGH NOZZLES AND MULTI-NOZZLES 360 2.3.3.5 HOT RUNNER SOLUTIONS WITH NEEDLE VALVE 361 2.3.4 HOT RUNNER MANIFOLD SYSTEMS, WIRED SYSTEMS, AND HOT HALVES 367 2.3.5 HOT RUNNER CONTROL TECHNOLOGY 370 2.3.6 COLD RUNNER SYSTEMS 372 2.3.6.1 FUNCTION AND ADVANTAGES 372 2.3.6.2 PROCESSABLE MATERIALS 373 2.3.6.3 MOLD TECHNOLOGY 375 2.3.6.4 DEMOLDING 375 2.3.6.5 MOLD TEMPERATURE CONTROL 376 2.4 TEMPERATURE CONTROL OF INJECTION MOLDS 377 P. THIENEL 2.4.1 TASKS AND GOALS OF THE MOLD TEMPERATURE CONTROL 377 2.4.2 INFLUENCE OF PROCESSING TEMPERATURES ON THE COOLING AND CYCLE TIME 379 2.4.3 CAVITY TEMPERATURE 379 2.4.4 INFLUENCE OF TEMPERATURE CONTROL ON THE MOLDED PART PROPERTIES 381 2.4.5 REQUIREMENTS FOR THE TEMPERATURE CONTROL SYSTEM 383 2.4.6 TEMPERATURE CONTROL CHANNELS 383 2.4.7 FLOW PRINCIPLE 385 2.4.7.1 SERIES TEMPERATURE CONTROL 385 2.4.7.2 PARALLEL TEMPERATURE CONTROL 386 2.4.8 PRACTICAL DESIGNS OF CONVENTIONAL TEMPERATURE CONTROL OPTIONS 387 2.4.8.1 FLAT TEMPERATURE CONTROL 387 2.4.8.2 TEMPERATURE CONTROL OF MOLDED PART CORNERS 388 2.4.8.3 TEMPERATURE CONTROL OF THE CORE 389 2.4.8.3.1 TEMPERATURE CONTROL TUBES 389 IMAGE 11 2.4.8.3.2 SEPARATING PLATE (DEFLECTION BAR) 389 2.4.8.3.3 SPIRAL CORES 390 2.4.8.3.4 HEAT PIPE 390 2.4.8.4 MORE CONVENTIONAL TEMPERATURE CONTROL OPTIONS 392 2.4.8.4.1 CIRCUMFERENTIAL APPLICATION TEMPERATURE CONTROL 392 2.4.8.4.2 INSERTS MADE FROM DIFFERENT MATERIALS 392 2.4.9 NEW TEMPERATURE CONTROL TECHNOLOGIES 393 2.4.9.1 CONTOUR-DEPENDING TEMPERATURE CONTROL 393 2.4.9.1.1 VACUUM BRAZING TECHNOLOGY 394 2.4.9.1.2 SELECTIVE LASER SINTERING (SLS) 395 2.4.9.2 C0 2 TEMPERATURE CONTROL 395 2.4.9.2.1 C0 2 TEMPERATURE CONTROL WITH SINTERED MATERIAL 396 2.4.9.2.2 C0 2 TEMPERATURE CONTROL WITH CONVENTIONAL STEEL 397 2.4.9.3 DYNAMIC TEMPERATURE CONTROL 397 2.4.10 THERMAL MOLD DESIGN 400 2.4.11 POSITION OF THE TEMPERATURE SENSOR FOR EXTERNAL TEMPERATURE CONTROL 402 2.5 INNOVATIVE MOLD TECHNOLOGIES 405 I EULENSTEIN 2.5.1 COATING TECHNOLOGY - DESIGN SURFACES THROUGH COMBINED SURFACE AND COATING TECHNOLOGIES 405 2.5.2 TEMPERATURE CONTROL TECHNOLOGY - INDUCTIVE HEATING OF INJECTION MOLDS 410 2.5.3 VACUUM TECHNOLOGY - ALTERNATIVE POSSIBILITIES, OPTIMIZATION OF SURFACES 415 2.5.4 MOLD TECHNOLOGY - FLEXIBLE SEALING ELEMENTS FOR THE FLASHAND DAMAGE-FREE ENCAPSULATION OF INSERTS 417 3 MATERIALS FOR MOLD MAKING 421 3.1 PLASTIC MOLD STEELS 421 F. HIPPENSTIEL 3.1.1 INTRODUCTION 421 3.1.2 STEEL MAKING AND PROCESSING 423 3.1.2.1 STEELMAKING 423 3.1.2.2 HEAT TREATMENT 425 3.1.2.3 MACHINING 427 3.1.2.4 SURFACE MACHINING 427 3.1.2.5 QUALITY ASSURANCE 428 3.1.3 OVERVIEW OF PLASTIC MOLD STEELS 428 3.1.3.1 PRE-HARDENED PLASTIC MOLD STEELS 434 3.1.3.2 THROUGH-HARDENING PLASTIC MOLD STEELS 436 IMAGE 12 3.1.3.3 CORROSION-RESISTANT PLASTIC MOLD STEELS 437 3.1.3.4 PLASTIC MOLD STEELS FOR CASE HARDENING 439 3.1.3.5 PRECIPITATION HARDENING PLASTIC MOLDS STEELS 440 3.1.3.6 NITRIDING STEELS 441 3.1.4 CONCLUDING COMMENT 441 3.2 ALUMINUM ALLOYS 442 A. ERSTLING 3.2.1 INTRODUCTION 442 3.2.2 MOLD MATERIALS 443 3.2.2.1 CASTING MATERIALS 444 3.2.2.2 WROUGHT MATERIALS 444 3.2.2.3 MECHANICAL PROPERTIES AND DESIGN GUIDELINES 446 3.2.2.4 CORROSION 448 3.2.2.5 FRICTION AND WEAR RESISTANCE 449 3.2.3 MANUFACTURE OF ALUMINUM MOLDS 451 3.2.3.1 ABRASIVE PROCEDURES 451 3.2.3.1.1 MACHINING 451 3.2.3.1.2 GRINDING 454 3.2.3.1.3 ELECTRICAL DISCHARGE MACHINING (EDM) OR WIRE EDM 454 3.2.3.1.4 ETCHING 454 3.2.3.2 WELDING 454 3.2.3.3 CASTING 457 3.2.4 APPLICATIONS 458 3.3 COPPER ALLOYS-NONFERROUS METALS 460 E. SEUFERT 3.3.1 PROPERTIES 460 3.3.1.1 STRENGTH PROPERTIES 460 3.3.1.2 THERMAL PROPERTIES 462 3.3.2.1 TURNING 464 3.3.2.2 MILLING 465 3.3.2.3 DRILLING 465 3.3.2.4 THREADING 466 3.3.2.5 REAMING 466 3.3.2.6 EDM 467 3.3.2.7 WELDING 467 3.3.3 SURFACES 468 3.3.3.1 POLISHING 469 3.3.3.2 COATING 469 3.3.3.3 STRUCTURING 470 3.3.4 SUMMARY 470 IMAGE 13 4 MANUFACTURING AND MACHINING METHODS 471 4.1 MOLD MANUFACTURING 471 A. KLOTZBIICHER 4.1.1 INTRODUCTION 471 4.1.2 DESIGN 471 4.1.2.1 DEVELOPMENT 471 4.1.2.2 VISUALIZING 472 4.1.2.3 CUBING MODEL 472 4.1.2.4 STEREOLITHOGRAPHY 472 4.1.3 DATA MODEL 474 4.1.3.1 DATA FEEDBACK 474 4.1.3.2 COMPLETION OF PRODUCT DATA 474 4.1.4 DATA TRANSFER IN MOLD MAKING 475 4.1.4.1 VERIFYING OF DATA QUALITY 475 4.1.4.2 FEASIBILITY STUDIES 475 4.1.5 FEEDBACTYCOMMUNICATION 476 4.1.6 DESIGN 477 4.1.6.1 SYSTEM ENVIRONMENT 477 4.1.6.2 RELEASES 478 4.1.7 PROGRAMMING 480 4.1.7.1 SOFTWARE 480 4.1.7.2 STRATEGIES 482 4.1.7.3 CHOICE OF MACHINERY 482 4.1.8 MACHINING 483 4.1.8.1 TOOLING 483 4.1.8.2 UNATTENDED OPERATION 484 4.1.8.3 RELEASES 484 4.1.9 DIMENSIONAL INSPECTION 485 4.1.10 DRILLING/DEEP HOLE DRILLING 485 4.1.11 ELECTRIC DISCHARGE MACHINING 486 4.1.12 SURFACE FINISHING 487 4.1.13 ASSEMBLY 487 4.1.14 TRIALS 489 4.1.15 OPTIMIZATION PROCESS AND FINISHING 489 4.2 ELECTRIC DISCHARGE MACHINING (EDM) 490 D. SCHAFFNER, B. MACK 4.2.1 INTRODUCTION 490 4.2.2 PHYSICAL PROCESSES 492 4.2.3 TOLERANCES AND KEY DATA 494 4.2.4 DIE-SINKING EDM 494 4.2.5 WIRE-CUT EDM 497 IMAGE 14 4.2.6 COMBINED AND SPECIAL PROCESSES 500 4.3 GALVANIZED INSERTS AND MOLDS 502 R. HENTRICH 4.3.1 GENERAL INFORMATION 502 4.3.2 PROCESS DESCRIPTION 502 4.3.3 GALVANIZED MATERIALS 504 4.3.4 MODEL MATERIALS AND MODEL DESIGN 505 4.3.5 CLAMPS AND MOUNTING BRACKETS 507 4.3.6 FINISHING AND INSTALLATION OF GALVANIZED INJECTION INSERTS . 509 4.3.7 EFFICIENCY AND SERVICE LIFE 510 4.3.8 GALVANIZED MOLDS FOR OTHER PLASTICS PROCESSING METHODS .. 513 4.3.8.1 MOLDS FOR PROCESSING POLYURETHANE FOAM 514 4.3.8.2 PUR SPRAY MOLDS 515 4.3.8.3 LAMINATING MOLDS FOR THE AEROSPACE INDUSTRY 516 4.3.9 NEGATIVE-STAMPING DEEP DRAWING PROCESS (IN-MOLD GRAINING) 519 4.4 POLISHING TECHNOLOGY IN MOLD MAKING 521 C. STEINER 4.4.1 GENERAL INFORMATION 521 4.4.2 DEFINITION OF THE TERM SURFACE ROUGHNESS 521 4.4.3 SYSTEMATIC POLISHING TECHNIQUE 522 4.4.4 POLISHING BEHAVIOR-INFLUENCING FACTORS 524 4.4.5 POLISHING TECHNOLOGIES 524 4.4.5.1 FOR SUPERFINISHING (POLISHING) SURFACE PREPARATORY LEVELING TECHNOLOGY 524 4.4.5.2 LAPPING 527 4.4.5.3 POLISH LAPPING 530 4.4.5.4 POLISHING 531 4.4.6 ULTRASONICS 532 4.4.7 ELECTRIC DISCHARGE MACHINING/EROSION FOR BRILLIANT SURFACES 532 4.5 HEAT TREATMENT AND SURFACE FINISHING TECHNIQUES 534 P. VETTER 4.5.1 INTRODUCTION 534 4.5.2 HEAT TREATMENT OF PLASTIC MOLD STEELS 534 4.5.2.1 HARDENED AND TEMPERED PLASTIC MOLD STEELS 535 4.5.2.2 THROUGH-HARDENING STEELS 536 4.5.2.3 CORROSION-RESISTANT STEELS 542 4.5.2.4 CASE-HARDENING STEELS 543 4.5.2.5 NITRIDING STEELS 543 4.5.2.6 MARAGING MOLD STEELS 543 IMAGE 15 4.5.2.7 GENERAL RECOMMENDATIONS FOR HEAT TREATMENT 544 4.5.3 SURFACE FINISHING 545 4.5.3.1 THERMAL PROCESSES 547 4.5.3.1.1 FLAME HARDENING 548 4.5.3.1.2 LASER HARDENING 549 4.5.3.2 THERMO-CHEMICAL PROCESSES 550 4.5.3.2.1 CASE-HARDENING 550 4.5.3.2.2 NITRIDING 552 4.5.3.2.3 GAS NITRIDING 553 4.5.3.2.4 PLASMA NITRIDING 554 4.5.3.2.5 BORIDING 555 4.5.3.3 ELECTROCHEMICAL PROCESSES 555 4.5.3.3.1 HARD CHROME PLATING 556 4.5.3.3.2 NICKEL PLATING 558 4.5.3.4 CHEMICAL AND PHYSICAL PROCESSES 560 4.5.3.4.1 CVD COATING 560 4.5.3.4.2 PACVD COATING 561 4.5.3.4.3 PVD COATING 561 4.5.3.5 COMPARING AND SELECTING SURFACE TREATMENT PROCESSES- 564 4.6 SURFACE STRUCTURING 567 ST. KRIITH 4.6.1 THE PHOTOCHEMICAL ETCHING TECHNOLOGY 567 4.6.1.1 INTRODUCTION 567 4.6.1.2 WHY STRUCTURING? 568 4.6.1.3 FROM THE STRUCTURE TEMPLATE TO THE FILM 569 4.6.2 REQUIREMENTS ON THE MOLD SURFACE AND CONSTRUCTION 569 4.6.2.1 MATERIALS AND THE SELECTION OF MATERIALS 570 4.6.2.1.1 STEEL 571 4.6.2.1.2 ALUMINUM AND OTHER MATERIALS 571 4.6.2.1.3 HEAT TREATMENT AND SURFACE REFINEMENT 571 4.6.2.1.4 GRAIN DEPTHS AND TOLERANCES 572 4.6.2.1.5 THE GLOSS LEVEL IN THE MOLD AND IN THE MOLDED PART 573 4.6.2.2 PROCESSING METHODS AND REPAIR TECHNOLOGY 574 4.6.2.3 DRAFT ANGLES, OPEN SPACES, AND SURFACE PREPARATION 574 4.6.2.4 CONTOUR CHANGES BY WELDING OF INSERTS 575 4.6.2.5 CONTOUR CHANGES BY SHRINKING INSERTS 576 4.6.2.6 STRUCTURE HARDENING, FIBER ORIENTATION, BAND-TYPE FORMATION 577 4.6.2.7 ETCHING TEST 578 4.6.3 SPECIAL PROCESSES 579 4.6.3.1 DESIGN TYPES AND ETCHING COMBINATIONS 579 IMAGE 16 4.6.3.2 LIMITATIONS OF THE PROCESSING TECHNOLOGY 579 4.6.3.3 NEW TECHNOLOGIES 580 4.6.4 THE EXECUTION OF THE ORDER 581 4.6.4.1 SUPPLY 581 4.6.4.2 INFORMATION ABOUT THE GRAIN AREA AND THE MOLD 581 4.6.4.3 CONCLUDING REMARK 581 4.7 RAPID PROTOTYPING IN MOLD MAKING 582 A. GEBHARDT 4.7.1 RAPID TOOLING 582 4.7.2 FUNDAMENTALS OF THE GENERATIVE MANUFACTURING PROCESSES 583 4.7.2.1 PROCESS PRINCIPLE 583 4.7.2.2 DATA FLOW AND DATA FORMATS 584 4.7.2.3 PROPERTIES OF GENERATIVE COMPONENTS 584 4.7.2.4 DEFINITIONS FOR RAPID TOOLING 586 4.7.3 GENERATIVE PROCESSES FOR MOLD MAKING 587 4.7.3.1 POLYMERIZATION-STEREOLITHOGRAPHY 588 4.7.3.2 SINTERING AND MELTING 590 4.7.3.3 LAYER-LAMINATE PROCESS 592 4.7.3.4 EXTRUSION PROCESS 594 4.7.3.4.1 3D PRINTING 596 4.7.4 MACHINES FOR GENERATIVE MOLD MAKING 598 4.7.5 EXAMPLES 599 4.7.5.1 PROTOTYPE TOOLING 599 4.7.5.2 DIRECT TOOLING 599 4.7.6 DELIMITATION TO NON-GENERATIVE MANUFACTURING PROCESSES . 603 4.7.7 NAMES AND LINKS 605 5 ORDERING AND OPERATION OF MOLDS 607 5.1 MOLDS IN THE OFFER PHASE 607 F. SCHLOFIER 5.1.1 INTRODUCTION 607 5.1.2 THE PLANNING OF MOLDS 608 5.1.2.1 ADJUSTMENT PROCESS OF COMPONENT AND MOLD 608 5.1.2.2 DESIGN OF THE MOLD UNDER CONSIDERATION OF THE PRODUCT LIFE CYCLE 609 5.1.2.3 CHECKLIST FOR THE MOLD SPECIFICATION 611 5.1.3 COSTING IN MOLD MAKING 613 5.1.3.1 VARIOUS METHODS FOR COSTING 613 5.1.3.2 SIMPLIFIED COSTING IN THE BIDDING AND DESIGN PHASE 614 5.1.3.2.1 ESTIMATED VALUE TECHNOLOGY 614 5.1.3.2.2 REFERENCE VALUE METHODOLOGY 614 IMAGE 17 5.1.3.2.3 COST ELEMENT METHODOLOGY/VARIABLE COSTING 616 5.1.3.2.4 DETAIL CALCULATIONS/POST-CALCULATIONS 618 5.1.4 SUMMARY 621 5.2 SETUP AND CONTROL OF MOLDS 622 CH. BADER 5.2.1 REQUIREMENTS FOR EFFECTIVE QUALITY ASSURANCE 622 5.2.2 MOLD SENSOR SYSTEMS OVERVIEW 622 5.2.2.1 MOLD CAVITY PRESSURE SENSORS 623 5.2.2.2 THE MEASURING PRINCIPLE 623 5.2.2.3 CAVITY TEMPERATURE SENSORS 625 5.2.2.4 SENSOR POSITION 625 5.2.2.5 QUICK CONNECTORS 626 5.2.3 DATA ACQUISITION AND ELECTRONICS 627 5.2.4 SETUP AND OPTIMIZATION 628 5.2.4.1 CAVITY PRESSURE 628 5.2.4.2 THE IMPORTANCE OF THE CAVITY TEMPERATURE CURVE 631 5.2.4.3 SWITCHOVER TO HOLDING PRESSURE 632 5.2.5 THE PROCESS MONITORING 633 5.2.6 FACTORY-WIDE NETWORKING AND MONITORING 635 5.2.7 REAL-TIME CONTROLS IN THE INJECTION MOLDING PROCESS 637 5.2.8 THE CONTROL OF THE INJECTION MOLDING PROCESS 638 5.2.9 OUTLOOK 641 5.3 WEAR ON INJECTION MOLDS 642 T. EULENSTEIN, U. HINZPETER 5.3.1 INTRODUCTION 642 5.3.2 TRIBOLOGICAL FUNDAMENTALS 642 5.3.3 ABRASION 646 5.3.3.1 FORMS OF DAMAGE ON MOLDS AND HOT RUNNERS THAT CAUSE MOLDED PART DEFECTS 646 5.3.3.2 CORRECTIVE MEASURES 649 5.3.4 CORROSION 649 5.3.4.1 CAUSES AND FORMS OF DAMAGE ON MOLDS THAT CAUSE MOLDED PART DEFECTS 651 5.3.4.2 CORRECTIVE MEASURES 651 5.3.5 ABRASIVE WEAR OF MOLD ELEMENTS 653 5.3.5.1 TYPES OF DAMAGE ON MOLD ELEMENTS 653 5.3.5.2 CORRECTIVE MEASURES 654 5.3.6 OUTLOOK AND DEVELOPMENT TRENDS 658 IMAGE 18 5.4 MAINTENANCE, STORAGE, SERVICE 662 U. THIESEN 5.4.1 GENERAL INFORMATION 662 5.4.2 MAINTENANCE, WEAR SUPPLY, HARDNESS 663 5.4.3 INSPECTION 663 5.4.3.1 TIME 663 5.4.3.2 INSPECTION PLAN 663 5.4.4 REPAIR 665 5.4.4.1 WEAR 665 5.4.4.2 LEAKAGE 666 5.4.4.3 BREAKAGE 667 5.4.4.4 REPAIR MEASURES 667 5.4.5 OPTIMIZATION 669 5.4.6 STORAGE 669 5.4.6.1 PRESERVATION 671 5.4.6.2 STORAGE LOCATION 672 5.4.6.3 MOLD LABELING 673 5.4.6.4 STORAGE SIZE 674 5.4.7 MAINTENANCE AND SERVICING COSTS 674 SUBJECT INDEX 677
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genre	1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV041372656
illustrated	Illustrated
indexdate	2024-07-10T00:55:14Z
institution	BVB
isbn	9781569904466 9781569905500
language	English German
lccn	2012027079
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026820784
oclc_num	862836494
open_access_boolean
owner	DE-29T DE-12 DE-210 DE-573 DE-91G DE-BY-TUM DE-83
owner_facet	DE-29T DE-12 DE-210 DE-573 DE-91G DE-BY-TUM DE-83
physical	XXX, 701 S. zahlr. Ill., graph. Darst. 25 cm
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Hanser
record_format	marc
spelling	Werkzeugbau für die Kunststoffverarbeitung Mold-making handbook [ed. by] Günter Mennig ; Klaus Stoeckhert 3. ed. Munich [u.a.] Hanser 2013 XXX, 701 S. zahlr. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Plastics Molds Werkzeugbau (DE-588)4189685-3 gnd rswk-swf Kunststoffverarbeitung (DE-588)4114335-8 gnd rswk-swf Formenbau (DE-588)4155011-0 gnd rswk-swf Kunststoffverarbeitungswerkzeug (DE-588)4166077-8 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Kunststoffverarbeitungswerkzeug (DE-588)4166077-8 s Werkzeugbau (DE-588)4189685-3 s DE-604 Kunststoffverarbeitung (DE-588)4114335-8 s Formenbau (DE-588)4155011-0 s 2\p DE-604 Mennig, Günter Sonstige (DE-588)107281279 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026820784&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Mold-making handbook Plastics Molds Werkzeugbau (DE-588)4189685-3 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd Formenbau (DE-588)4155011-0 gnd Kunststoffverarbeitungswerkzeug (DE-588)4166077-8 gnd
subject_GND	(DE-588)4189685-3 (DE-588)4114335-8 (DE-588)4155011-0 (DE-588)4166077-8 (DE-588)4143413-4
title	Mold-making handbook
title_alt	Werkzeugbau für die Kunststoffverarbeitung
title_auth	Mold-making handbook
title_exact_search	Mold-making handbook
title_full	Mold-making handbook [ed. by] Günter Mennig ; Klaus Stoeckhert
title_fullStr	Mold-making handbook [ed. by] Günter Mennig ; Klaus Stoeckhert
title_full_unstemmed	Mold-making handbook [ed. by] Günter Mennig ; Klaus Stoeckhert
title_short	Mold-making handbook
title_sort	mold making handbook
topic	Plastics Molds Werkzeugbau (DE-588)4189685-3 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd Formenbau (DE-588)4155011-0 gnd Kunststoffverarbeitungswerkzeug (DE-588)4166077-8 gnd
topic_facet	Plastics Molds Werkzeugbau Kunststoffverarbeitung Formenbau Kunststoffverarbeitungswerkzeug Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026820784&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	UT werkzeugbaufurdiekunststoffverarbeitung AT menniggunter moldmakinghandbook

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