Verfügbarkeit: Conduction and induction heating

Conduction and induction heating:

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Bibliographische Detailangaben
1. Verfasser:	Davies, E. J. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London Peregrinus 1990
Schriftenreihe:	Institution of Electrical Engineers: IEE power engineering series 11
Schlagworte:	Thermique Induktive Erwärmung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIII, 391 S. Ill., graph. Darst.
ISBN:	0863411746

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Datensatz im Suchindex

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adam_text	CONDUCTION AND INDUCTION HEATING E. J. DAVIES PETER PEREGRINUS LTD. ON BEHALF OF THE INSTITUTION OF ELECTRICAL ENGINEERS CONTENTS PAGE FOREWORD XY PREFACE XVI AEKNOWLCDGMENTS XVIII LIST OF SYMBOLS XXI PART I DIRECT RESISTANCE HEATING 1 FUNDAMENTAL* 3 1.1 INTRODUCTION 3 1.2 SIMPLE ELECTRICA! EQUATIONS 4 1.3 SIMPLE ELECTROTHERMAL EQUATIONS 5 1.4 PRACTICAL MODIFICATIONS 8 1.5 CONTACTS 12 2 ALTERNATING CURRENTS IN CONDUCTORS: THE SEMI-INFLNITE SLAB 13 2.1 THE PROBLEM 13 2.2 CURRENT FLOW IN A SEMI-INFINITE SLAB 14 2.2.1 SKINDEPTH 17 2.2.2 CURRENT 18 2.2.3 POWER LOSS PER UNIT SURFACE AREA 19 2.2.4 EFFECTIVE RESISTANCE 19 2.2.5 ELECTRIC FIELD INTENSITY 20 2.2.6 SURFACE MAGNETIC FIELD INTENSITY 21 2.2.7 TOTAL FLUX 21 2.3 PHYSICAL INTERPRETATION 22 3 ALTERNATING CURRENTS IN CONDUCTORS: WIDE RECTANGULAR SLAB 23 3.1 INTRODUCTION 23 3.2 CURRENT-DENSITY DISTRIBUTION 24 3.3 TOTAL CURRENT 26 3.4 POWER DENSITY 26 3.4.1 REAL AND REACTIVE POWER DENSITY USING EI 27 VIII CONTENTS 3.5 3.6 3.7 3.4.2 POWER IN CIRCUIT TERMS 3.4.3 POWER UNDER AC AND DC CONDITIONS 3.4.4 POWER FACTOR 3.4.5 LIMITS OF SIZE: STRIP LOSS APPROXIMATIONS 3,5.1 RESISTANCE 3.5.2 POWER DENSITY FLUX-DENSITY DISTRIBUTION DEPTH OF PENETRATION ALTERNATING CURRENTS IN CONDUCTORS: CIRCULAR CROSS-SECRION 4.1 4.2 4.3 4.4 4,5 SOLID CONDUETOR 4.1,1 SOLUTIONS OF THE BESSCL EQUATION 4.1.2 FUNCTIONS BER, BEI, KER, KEI 4.1.3 POLAR FORMS CURRENT-DENSITY DISTRIBUTION AND TOTAL CURRCNT IN A SOLID CONDUETOR 4.2.1 PHASE ANGLE AND POWER FACTOR POWER 4.3.1 REAL POWER 4.3.2 REACTIVC POWER 4.3.3 POWER FACTOR, USING P Z AND Q T CIRCUIT QUANTITIES LOSS APPROXIMATIONS 4.5.1 RESISTANCE 4.5.2 RESISTANCE AT HIGH FREQUENCIES 4.5.3 POWER HOLLOW CONDUCTORS: TUBES 5.1 5.2 5,3 5.4 5.5 5.6 5.7 5.8 INTRODUCTION EQUATIONS FOR TUBES CURRENT-DENSITY DISTRIBUTION LOSS DENSITY TOTAL CURRENT POWER CIRCUIT QUANTITIES 5.7.1 POWER FACTOR EXAMPLE CALCULATION: POWER LOSS CONSTANTS AND IMPEDANCE RATIOS FOR TUBE WIRE AND STRIP HEATING 6.1 6.2 6,3 6.4 INTRODUCTION CONSTANT P AND (CFI VARIABLE P AND (CY) 6.3.1 GENERAL 6.3.2 ANALYTICAL SOLUTION PRACTICAL CONDITIONS 29 31 31 31 31 31 32 33 34 35 35 37 37 39 41 43 44 44 46 46 47 48 48 49 49 51 51 51 52 55 55 56 58 61 61 64 64 64 67 67 67 71 CONTENTS IX PART II INDUCTION HEATING 7 BASIC INDUCTION HEATING 75 7.1 INTRODUCTION 75 7.2 THE SEMI-INFINITE SLAB 76 7.3 DUALITY OF DRH AND INDUCTION HEATING 77 7.4 DEPTH OF PENCTRATION 78 7.5 FLUX DENSITY, CURRENT DENSITY AND ELECTRIC FIETD 78 7.6 TOTAL CURRENT GO 7.7 LOSS 80 7.8 TOTAL FLUX AND POWER FACTOR 82 7.9 POWER, USING THE POYNTING THEOREM 83 8 INDUCTION HEATING OF THIN SLABS 85 8.1 INTRODUCTION 85 8.2 MAGNCTIC FIELD DISTRIBUTION 86 8.3 CURRENT-DENSITY DISTRIBUTION 87 8.4 FLUX DISTRIBUTION 88 8.5 POWER G9 8.6 POWER FACTOR 91 8.7 DUALITY 91 9 INDUCTIOU HEATING OF CYLINDERS 93 93 94 95 96 99 101 102 10 INDUCTION HEATING OF TUBES 103 10.1 RELATIONSHIP BETWEEN THE CONSTANTS A AND B IN THE FIELD DISTRI- BUTION 103 10.2 MAGNETIC FIELD DISTRIBUTION 104 10.3 CURRENT-DENSITY DISTRIBUTION 105 10.4 LOSS-DENSITY DISTRIBUTION HO 10.5 POWER 112 10.5.1 TUBE POWER LOSS CONSTANT 115 10.5.2 TUBE REACTIVE POWER LOSS CONSTANT 117 11 INDUCTION HEATING OF HOLLOW CYLINDER FROM INSIDE 118 11.1 MAGNETIC FIELD DISTRIBUTION 118 11.2 CURRENT-DENSITY DISTRIBUTION 119 11.3 POWER LOSS 120 11.4 POWER FACTOR 121 9.1 9.2 9.3 9.4 9.5 9.6 9.7 BASIC PRINCIPLES MAGNCTIC FIELD DISTRIBUTION FLUX DISTRIBUTION CURRENT-DENSITY DISTRIBUTION POWER POWER FACTOR DUALITY X CONTENTS 12 EFFECTS OF CHANGING PERMEABILITY AND RESISTIVITY 123 12.1 INTRODUCTION 123 12.2 SCMI-INFINITE SLAB 123 12.2.1 CHANGE JX: CONDUCTION. SCMI-INFINITE SLAB 123 12.2.2 CHANGE P.: INDUCTION, SEMI-INFINITE SLAB 124 12.2.3 CHANGE P: CONDUCTION, SCMI-INFINITE SLAB 125 12.2.4 CHANGE P: INDUCTION, SEMI-INFINITE SLAB 125 12.3 THIN SLABS AND CYLINDERS 125 12.3.1 CHANGE )T: CONDUCTION. THIN SLABS AND CYLINDERS 127 12.3.2 CHANGE P: CONDUCTION, THIN SLABS AND CYLINDERS 127 12.3.3 CHANGE P: INDUCTION, THIN SLABS AND CYLINDERS 127 12.3.4 CHANGE P: INDUCTION, THIN SLABS AND CYLINDERS 127 12.4 COMBINED RESISTIVITY AND PERMEABILITY CHANGES 127 12.4.1 CHANGE P AND P.: CONDUCTION, SCMI-INFINITE SLAB 127 12.4.2 CHANGE P AND /C CONDUCTION, THIN SLAB 127 12.4.3 CHANGE P AND P.: CONDUCTION, CYLINDER 128 12.4.4 CHANGE P AND P: INDUCTION 128 13 NON-LINEAR THEORY 130 14 PROXIMITY HEATING 133 14.1 SCANNING HEATING 135 PART III HEAT TRANSFER FOR ELECTROHEAT 15 BASIC HEAT TRANSFER 139 15.1 INTRODUCTION 139 15.2 HEAT STORAGC: RCLATIONSHIP BCTWEEN POWER, MEAN TEMPERALURE AND TIME 140 15.3 TEMPERATURE DISTRIBUTION DURING HEATING 142 15.3.1 QUALITATIVE TREATMENT 142 15.3.2 MATHEMATICAL TREATMENT 143 15.3.3 GENERALISED VALUES IN TERMS OF SURFACE-CENTRE TEMPERATURE DIFFERENCE 145 15.3.4 SURFACE TEMPERALURE 147 15.4 IDENLILY OF SLAB SOLUTIONS 151 16 -SOAKING CONDITIONS 152 16.1 INTRODUCTION 152 16.1.1 VALUC OF FINAL TEMPERALURE 0 M 152 16.1.2 SOLUTIONS FOR TEMPERATURE DISTRIBUTION 153 16.2 SOAKING OF SLAB PREVIOUSLY HEALED FROM ONE SIDE 153 16.3 SOAKING OF SLAB PREVIOUSLY HCATCD FROM BOTH SIDES 156 16.4 SOAKING OF CYLINDERS 156 17 RADIATION 159 17.1 TIME TO HEAT A BILLCT, INCLUDING RADIALION 159 17.2 TIME LO HEAT A SLAB, INCLUDING RADIATION 160 CONTENTS XI 17.3 MEAN RADIATED POWER OVER A TCMPCRATURC INTERVAL 161 17.4 COOLING BY RADIATION 162 18 EFFECT OF CURRENT DEPTH AND RADIATION 164 18.1 GENERAT HEAT-FLOW EQUATION 164 18.2 LOSS DENSITY 165 18.3 RECTANGULAR SLAB: CONDUETION AND INDUCTION HEATING !66 18.4 CYLINDRICAL BILLETS: CONDUETION AND INDUCTION HEATING 172 18.4.1 INDUCTION 174 18.4.2 CONDUETION 176 18.5 EFFECT OF RADIATION 178 19 HEAT TRANSFER DURING SURFACE HARDENING 180 19.1 SLAB SUBJECTED TO SUDDEN INCREASE IN SURFACC TCMPCRATURC 180 19.2 SLAB SUBJCCTCD TO A TCMPCRATURC 0(T) VARYING WILH LIME 182 19.3 SLAB SUBJECTED TO A CONSTANT POWER-DENSITY 183 19.4 SLAB SUBJCCTCD TO A SURFACC POWCR-DENSITY -:^ S (0 VARYING WILH TIMC 185 19.5 SLAB ALLOWED TO SOAK 185 20 WATER COOLING IN CONDUETORS 186 20.1 GENERAL 186 20.2 TEMPERATURE DIFTERENCE 190 20.3 WATCR QUANTITY 190 20.4 ARRANGEMENT OF COOUENG PATHS 191 20.5 PRESSURE DROPS 192 20.6 NON-CIRCULAR PIPES AND DUETS 194 21 KILLET WITH INITIAL TEMPERATURE DISTRIBUTION 195 PART IV PRACTICA! HEATING 22 THROUGH-HEATING BY INDUCTION 201 22.1 INTRODUCTION TO APPLICATIONS OF THROUGH-HEATING 201 22.1.1 COMPARISON WITH FOSSIL-FUEL-FIRCD HEATING FURNAEES 202 22.1.2 INDUCTION-HEATING CONFIGURATIONS 203 22.2 TEMPERATURE EFFECTS 204 22.2.1 SPECIFIC HEAT 204 22.2.2 RESISTIVITY 207 22.3 HEAT RADIATION AND CONVECTION 209 22.4 TCMPCRATURC DISTRIBUTION IN INDUCTION THROUGH-HEATING 211 22.5 EFFECTS OF CURRENT DEPTH AND RADIATED HEAT 213 22.6 TEMPERATURE DISTRIBUTIONS IN A HEATING CYCLE 213 22.7 SELECTION OF FRCQUCNCICS FOR INDUCTION HEATING 217 22.8 COIL DESIGN FOR GIVEN APPLICATIONS 219 22.8.1 COIL DESIGN FOR ALUMINIUM BILLET HEATER 219 22.8.2 COIL DESIGN FOR FERROMAGNETIC BILLETS 223 22.8.3 SEMI-EMPIRICAL APPROXIMATIONS 227 XII CONTENTS 22.9 EQUIVALENT CIRCUIT COIL-DESIGN METHOD 229 22.9.1 COUE DESAEGN FOR FERROMAGNETIC BILLET: EQUIVALENT CIRCUIT METHOD 234 22.10 MECHANICAL EONSLRUCTION OF COILS 237 22.11 SLAB REHEATING 240 22.12 TRAVELLING-WAVE INDUCTION HEATING 242 22.12.1 ADVANTAGES OF TRAVELLING-WAVE INDUCTION HEATING 244 22.12.2 COMPARISON OF TRAVELLING-WAVE INDUCTION HEATING WITH THE ROSS COIL 244 22.12.3 IMPLEMENTATION OF TRAVELLING-WAVE HEATERS 245 22.13 MULTI-LAYER COILS 246 22.14 TAPCRCD HEATING FOR EXTRUSION 246 22.15 SCALE-MODEL ANALOGUE METHODS 247 22.16 HEATING OF POWDERED-METAI PREFORMS FOR SINTERING 248 23 SURFACE HEATING BY INDUCTION 249 23.1 METALLURGICAL PRINCIPLES OF HEAT TREATMENT 251 23.1.1 TYPICAL INDUETION-HARDENING STEELS 253 23.2 QUCNCHCS AND QUENCHING 257 23.3 SCLECTION OF FREQUENCY FOR INDUCTION HEAT-TREATMENT 261 23.4 TEMPERATURE DISTRIBUTION IN INDUCTION SURFACE-HARDENING 267 23.4.1 CONSTANT SURFACE TEMPERATURE 267 23.4.2 CONSTANT POWER INPUT 268 23.5 APPLICATION SPEEIFICATIONS FOR COIL DESIGN 269 23.6 MECHANICAL CONSTRUETION OF COILS 272 24 OTHER APPLICATIONS OF INDUCTION HEATING 275 24.1 SOLDERING AND BRAZING 275 24.1.1 BASIC JOINING TECHNIQUES 275 24.1.2 CHOICE OF FREQUENCY 276 24.1.3 DESIGN CALCULATIONS 277 24.2 TUBE WCLDING 289 24.2.1 WORK COIL 290 24.2.2 IMPEDER 292 24.2.3 STRIP 294 24.2.4 SCAM GUIDE 294 24.2.5 SQUEEZC ROLLS 295 24.3 HEATING OF RESIN KETTLES AND OTHER VESSELS 296 24.4 PAINT DRYING 298 24.5 INDUCTION HEATING IN PLASLIC WORKING 299 24.6 ANNEALING AND STRESS RELIEVING 300 24.6.1 TEMPERING 301 24.6.2 ANNEALING 301 24.6.3 STRESS RELIEVING 302 24.7 LONGITUDINAL FLUX INDUCTION HEATING 302 24.8 TRANSVERSE-FLUX HEATING 303 24.9 SEMICONDUCTOR PROECSSING 305 24.10 MISEELLANEOUS USES OF INDUCTION HEATING 308 24.11 TRAVELLING-WAVE HEATERS 309 CONTENTS XIII 25 INDUCTION MELTING 3]1 25.1 PRINCIPLES OF INDUCTION MELTING 311 25.1.1 CORELESS INDUCTION FURNACES 312 25.1.2 CHANNEL INDUCTION FURNACES 315 25.2 THE CORELESS INDUCTION FURNACC 317 25.2.1 REFRACTORY LININGS 317 25.2.2 WINDINGS 319 25.2.3 FLUX GUIDES 320 25.2.4 FRAME 321 25.2.5 ELECTRICA! EONNECTIONS 321 25.2.6 CHOICE OF FREQUENCY 322 25.2.7 SIZES OF FURNACE 323 25.3 THE CHANNEL FURNACE 324 25.3.1 THE MAIN VESSEL 324 25.3.2 THE INDUETOR 325 25.3.3 LOADING AND POURING 326 25.3.4 CHOICE OF SIZE 327 25.4 COTNPARISON OF CORELESS AND CHANNEL FURNACES 327 25.4.1 COMBINATION METHODS 328 25.5 SPECIAL FEATURES IN MELTING FURNACES 329 25.5.1 FURNACES USING SEPARATE CRUCIBLES 329 25.5.2 VACUUM FURNACES 331 25.5.3 ROLLOVER FURNACES 333 26 DIRECT RESISTANCE HEATING 335 26.1 INTRODUCTION 335 26.2 AC VERSUS DC FOR DRH 336 26.2.1 UNRECLIFIED AC 336 26.2.2 RECTIFICD AC 337 26.2.3 COMPARISON: SINGLE PHASC 338 26.2.4 POLYPHASE AC 339 26.3 VALUE OF JI IN DRH 340 26.4 CONTACTS 340 26.4.1 CONTACT MATERIALS 340 26.4.2 LIQUID METAL CONTACTS 341 26.5 PRACTICAL APPLICATIONS; CASC STUDIES 341 26.5.1 SPRING WINDING 341 26.5.2 WARM CROPPING 342 26.5.3 HEATING FOR FORGING 343 APPENDIX A.L RESISTIVITY, SPECIFIC HEAT AND THERMAL CONDUETIVITY AS FUNCTIONS OF TEMPERATURE 345 APPENDIX A.2 RCLATIONS FOR TANH (1 + )0 351 APPENDIX A.3 BESSEL FUNCTIONS AND VALUCS OF M 0 , A/,, N 0 AND N, FOR X*JL 353 XIV CONTENTS APPENDIX A.4 CAKULATIONS FOR CURVCS OF P MBE AND / U , H E 363 APPENDIX A.5 SOLUTION OF F W(MR)DR 379 381 REFERENCES I - 385 INDEX
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spelling	Davies, E. J. Verfasser aut Conduction and induction heating E. J. Davies London Peregrinus 1990 XXIII, 391 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Institution of Electrical Engineers: IEE power engineering series 11 Thermique Induktive Erwärmung (DE-588)4161593-1 gnd rswk-swf Induktive Erwärmung (DE-588)4161593-1 s DE-604 Institution of Electrical Engineers: IEE power engineering series 11 (DE-604)BV001896459 11 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003518915&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Davies, E. J. Conduction and induction heating Institution of Electrical Engineers: IEE power engineering series Thermique Induktive Erwärmung (DE-588)4161593-1 gnd
subject_GND	(DE-588)4161593-1
title	Conduction and induction heating
title_auth	Conduction and induction heating
title_exact_search	Conduction and induction heating
title_full	Conduction and induction heating E. J. Davies
title_fullStr	Conduction and induction heating E. J. Davies
title_full_unstemmed	Conduction and induction heating E. J. Davies
title_short	Conduction and induction heating
title_sort	conduction and induction heating
topic	Thermique Induktive Erwärmung (DE-588)4161593-1 gnd
topic_facet	Thermique Induktive Erwärmung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003518915&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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