Verfügbarkeit: Magnesium technology

Magnesium technology: metallurgy, design data, applications

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Bibliographische Detailangaben
Weitere Verfasser:	Friedrich, Horst E. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2006
Schlagworte:	Magnesium alloys Magnesium > Metallurgy Metallurgie Magnesiumlegierung Magnesium
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 677 S. Ill., graph. Darst.
ISBN:	3540205993

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245	1	0	\|a Magnesium technology \|b metallurgy, design data, applications \|c Horst E. Friedrich ... [(eds.)]
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Datensatz im Suchindex

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adam_text	CONTENTS 1 HISTORY 1 1.1 HISTOR Y UNTI L 1945 KURTHARBODT 1 1.1.1 ASIA 1 1.1.2 AUSTRALIA 2 1.1.3 EUROPE 2 1.1.4 NORT H AMERICA 8 1.2 HISTOR Y SINCE 1945 ROBERT E. BROWN 12 1.2.1 PRODUCTIO N 12 1.2.2 APPLICATIONS 20 REFERENCES 28 2 PRODUCTION TECHNOLOGIES OF MAGNESIUM GILAD GOLUB, ELI AGHION 29 2.1 INTRODUCTIO N 29 2.2 RAW MATERIALS FOR MAGNESIU M PRODUCTIO N 30 2.2.1 MAGNESITE 31 2.2.2 DOLOMITE 31 2.2.3 BISCHOFITE 31 2.2.4 CARNALLITE 31 2.2.5 SERPENTIN E 32 2.2.6 SEA WATER 32 2.3 ELECTROCHEMICAL METHOD S 33 2.3.1 PREPARATIO N OF MAGNESIU M CHLORIDE SALTS FROM NATURA L RAW MATERIALS 33 2.3.2 DRYIN G MAGNESIUM CHLORIDE SALTS 35 2.3.3 ELECTROLYSIS OF MAGNESIU M SALTS 36 2.3.3.1 TYPE OF ELECTROLYTES FOR ELECTROLYSIS 36 2.3.3.2 THERMA L BALANCE OF TH E ELECTROLYSIS CELL 37 2.3.3.3 INCREASIN G TH E MAGNESIU M OUTPU T BY MEANS OF ARTIFICIAL COOLING 39 2.3.4 TYPES OF ELECTRODES IN TH E ELECTROLYSIS CELLS 39 2.3.5 STRUCTUR E OF TH E ELECTROLYSIS CELLS 41 2.3.6 OPERATIO N OF ELECTROLYSIS CELL 42 2.3.7 REFINING RAW MAGNESIU M PRODUCE D B Y ELECTROCHEMICAL METHOD S 43 2.3.8 INDUSTRIA L METHOD S FOR ELECTROCHEMICAL PRODUCTIO N 44 2.3.8.1 DSM AN D RUSSIAN PROCESS 44 2.3.8.2 THE DOW PROCESS 46 2.3.8.3 THE MAGCORP (NOW US MAG) PROCESS 47 2.3.8.4 THE HYDRO MAGNESIU M PROCESS 47 2.3.8.5 THE MAGNOLA PROCESS 49 2.3.8.6 THE AMC PROCESS 50 2.4 THERMA L REDUCTION METHOD S 52 2.4.1 PREPARATIO N OF RAW MATERIAL AN D THERMA L REDUCTIO N METHO D . . 52 2.4.2 INDUSTRIA L METHOD S WIT H THERMA L REDUCTIO N 52 2.4.2.1 SILICOTHERMIC PROCESSES 52 2.4.2.2 ALUMINOTHERMI C PROCESSES 56 2.4.2.3 CARBOTHERMI C PROCESS 57 2.4.3 COLLECTION AN D REFINING TH E RAW MAGNESIU M PRODUCE D B Y THERMA L REDUCTIO N 58 2.5 ADVANTAGES AN D DISADVANTAGES OF ELECTROLYTIC PRODUCTIO N VERSUS THERMA L REDUCTIO N METHOD S 59 REFERENCES 60 3 PHYSICAL METALLURGY BARRY L. MORDIKE, PAVEL LUKAC 63 3.1 INTRODUCTIO N 63 3.2 PROPERTIE S OF PUR E MAGNESIU M 63 3.2.1 ATOMIC PROPERTIE S 63 3.2.2 ELECTRON STATES 64 3.2.3 LATTICE PARAMETER S 64 3.2.4 THERMA L EXPANSIO N 65 3.2.5 DENSIT Y 65 3.2.6 THERMODYNAMI C PROPERTIE S 65 3.2.7 DIFFUSION 65 3.2.8 THERMA L CONDUCTIO N 66 3.2.9 ELASTIC MODUL I 68 3.2.10 DAMPIN G CAPACIT Y 68 3.2.11 DEFORMATION BEHAVIOR 74 3.2.12 STRENGTHENIN G MECHANISM S 75 3.2.12.1 DISLOCATION STRENGTHENIN G 76 3.2.12.2 SOLID SOLUTION HARDENIN G 76 3.2.12.3 PRECIPITATIO N STRENGTHENIN G 77 3.2.12.4 DISPERSION STRENGTHENIN G 78 3.2.12.5 STRENGTHENIN G BY GRAIN SIZE REFINEMENT 78 3.3 MAGNESIU M ALLOYS 79 3.3.1 COMMO N ALLOYING ELEMENTS 80 3.3.1.1 ALUMINU M . . . 80 3.3.1.2 CALCIUM 80 3.3.1.3 LITHIUM 80 3.3.1.4 MANGANESE . . . 81 3.3.1.5 RARE EARTH S 81 3.3.1.6 SILICON 81 3.3.1.7 SILVER 81 3.3.1.8 THORIU M 81 3.3.1.9 YTTRIUM 81 3.3.1.10 ZINC 81 3.3.1.11 ZIRCONIU M 81 3.3.2 ELEMENTS USED FOR MANUFACTURIN G PURPOSE S OR IMPURITIE S ... . 82 3.3.2.1 BERYLLIUM 82 3.3.2.2 COPPER 82 3.3.2.3 IRO N 82 3.3.2.4 NICKEL 82 3.3.2.5 TIN 82 3.3.3 CLASSIFICATION OF ALLOYS 82 3.4 PHASE DIAGRAM S 84 3.4.1 CONVENTIONAL ALLOYS 84 3.4.1.1 MAGNESIUM-ALUMINU M 84 3.4.1.2 MAGNESIUM-ZIN C 84 3.4.1.3 MAGNESIUM-MANGANES E 85 3.4.1.4 SUPER LIGHT WEIGHT ALLOYS 86 3.4.1.5 HIGH PERFORMANCE ALLOYS 87 3.4.1.6 MAGNESIUM-SCANDIU M 88 3.4.1.7 MAGNESIUM-ZIRCONIU M 89 3.4.2 HIGHE R SYSTEMS 90 3.5 COMMERCIAL ALLOY SYSTEMS 92 3.5.1 MAGNESIU M DIE CASTING ALLOYS (ZIRCONIUM FREE) 93 3.5.2 PERMANEN T MOULD, SAND AN D INVESTMEN T CASTING ALLOYS 94 3.5.2.1 MAGNESIUM-ZINC-ZIRCONIU M 94 3.5.2.2 MAGNESIUM-RAR E EARTH-ZINC-ZIRCONIU M (ZK61 AN D ZK62) .. . 94 3.5.2.3 MAGNESIUM-SILVER 96 3.5.2.4 MAGNESIUM-YTTRIU M ALLOYS 96 3.5.3 FURTHE R DEVELOPMENT 96 3.5.4 HIGHLY CREEP RESISTANT ALLOYS 97 REFERENCES 102 APPENDIX . . 105 4 MELTING, ALLOYING AND REFINING 109 4.1 ZIRCONIUM-FRE E ALLOYS MIHRIBAN PEKGULERYUZ 109 4.1.1 MG-AL, MG-AL-ZN, AN D MG-AL-SI ALLOYS 109 4.1.1.1 FLUX MELTING AN D REFINING 109 4.1.1.2 FLUXLESS MELTING, AN D ALLOYING (TH E USE OF COVER GASES) 113 4.1.1.3 ALLOYING OF MG WIT H AL, ZN, SI 115 4.1.1.4 MANGANESE 116 4.1.1.5 BERYLLIUM 119 4.1.1.6 SILICON 121 4.1.2 MG-AL-(RARE-EARTH) ALLOYS 121 4.1.3 MG-AL-(ALKALINE EARTH ) ALLOYS 122 4.1.3.1 CALCIUM 123 4.1.3.2 STRONTIU M 123 4.1.4 MG-LIALLOYS 124 4.2 ALLOYS CONTAININ G ZIRCONIU M JOHN F. KING 128 4.2.1 INTRODUCTIO N 128 4.2.2 MECHANIS M OF GRAIN REFINEMENT BY ZIRCONIU M 128 4.2.3 EFFECT OF OTHE R ALLOYING ELEMENTS 131 4.2.3.1 INCOMPATIBL E ELEMENTS 131 4.2.3.2 COMPATIBLE ALLOY SYSTEMS 132 4.2.4 METHOD S OF INTRODUCIN G ZIRCONIU M 133 4.2.4.1 PRODUCT S AVAILABLE 133 4.2.4.2 BASIC PRINCIPLES OF ZR GRAIN REFINEMENT 133 4.2.4.3 ZIRCONIU M GRAIN REFINING I N FLUXED MELTS 135 4.2.4.4 ZIRCONIU M GRAIN REFINING IN FLUX-FREE MELTS 137 4.2.4.5 METHOD S OF ASSESSING GRAIN REFINEMENT 138 4.2.5 MELTING, ALLOYING PROCEDURE S FOR OTHE R ELEMENTS 139 REFERENCES 141 5 MAGNESIUM CASTING ALLOYS 145 5.1 CASTING ALLOYS HAKON WESTENGEN, TERJE KR. AUNE 145 5.1.1 INTRODUCTIO N 145 5.1.2 ALLOYING PRINCIPLES 146 5.1.2.1 PROPERTIE S OF PUR E MAGNESIU M 146 5.1.2.2 ALLOY PREPARATIO N . . . 146 5.1.2.3 ALLOYING ELEMENTS AN D THEIR INFLUENCE 149 5.1.3 CASTING METHOD S 162 5.1.4 ALLOYS FOR DIECASTING 166 5.1.4.1 COMPOSITION S 166 5.1.4.2 MICROSTRUCTURE S (HYDRO MAGNESIUM ) 167 5.1.4.3 PROPERTIE S 171 5.1.5 ALLOYS FOR SAND CASTING 198 5.1.5.1 COMPOSITION S 198 5.1.5.2 PROPERTIE S 199 5.2 WROUGHT ALLOYS CATRIN KAMMER 204 5.2.1 MAGNESIU M - ALUMINU M 208 5.2.2 MAGNESIU M - MANGANESE (M-ALLOYS) 210 5.2.3 MAGNESIU M - ALUMINU M - ZINC (AZ-ALLOYS) 210 5.2.4 MAGNESIU M - ZINC - ZIRCONIU M (ZK-ALLOYS) 212 5.2.5 MAGNESIU M - ZINC - RARE EART H (ZE-ALLOYS) 212 5.2.6 MAGNESIU M - YTTRIUM - RARE EART H (WE-ALLOYS) 212 5.2.7 MAGNESIU M - THORIUM , ZIRCONIU M OR MANGANESE (HK-AN D HM-ALLOYS) 213 5.2.8 MAGNESIU M - LITHIUM - ALLOYS (LA-ALLOYS) ..21 3 5.2.9 OTHER WROUGHT ALLOYS 214 REFERENCES 214 6 TECHNOLOGY OF MAGNESIUM AND MAGNESIUM ALLOYS 219 6.1 CASTING 219 6.1.1 SAND CASTING JOHN F. KING 219 6.1.1.1 INTRODUCTIO N 219 6.1.1.2 SAND SYSTEMS 220 6.1.1.3 DESIGN OF RUNNIN G SYSTEMS 223 6.1.1.4 MOULD PREPARATIO N AN D ASSEMBLY 226 6.1.1.5 IDENTIFICATION AN D ELIMINATIO N OF DEFECTS 228 6.1.1.6 SAND CASTING TECHNIQUES . 229 6.1.1.7 HEAT TREATMENT 231 6.1.1.8 INSPECTIO N OF CASTINGS 232 6.1.2 DIE CASTING DIETER BRUNGS, ANDREAS MERTZ 234 6.1.2.1 DIE CASTING PROCESS FOR MAGNESIU M 234 6.1.2.2 DESIGN GUIDELINES FOR MAGNESIU M DIE CASTINGS 247 6.1.2.3 PROPERTIE S OF MAGNESIU M DIE CASTINGS 252 6.1.2.4 ENVIRONMENTA L IMPAC T 257 6.1.3 SQUEEZE CASTING, THIXOCASTIN G AN D RHEOCASTIN G HELMUT KAUFMANN, SIMON KLEINER 258 6.1.3.1 INTRODUCTIO N 258 6.1.3.2 SQUEEZE CASTING 259 6.1.3.3 SEMI-SOLID CASTING 261 6.2 FORMIN G 269 6.2.1 ROLLING AN D SHUT FORMIN G PETER JUCHMANN 269 6.2.1.1 SITUATION AN D POTENTIAL OF MAGNESIU M SHEET 269 6.2.1.2 FORMIN G OF MAGNESIU M AN D MAGNESIU M ALLOYS 272 6.2.1.3 MAGNESIU M ROLLING 274 6.2.1.4 MAGNESIU M SHEET 276 6.2.1.5 SHEET METAL FORMIN G 278 6.2.1.6 PROTOTYPIN G AN D APPLICATION PERSPECTIVES 284 6.2.1.7 CONCLUDING REMARK S AN D OUTLOO K 287 6.2.2 EXTRUSION , FORGING BERNARD CLOSSET 289 6.2.2.1 PRODUCTIO N OF CAST STOCK 289 6.2.2.2 EXTRUSIO N 294 6.2.2.3 MAGNESIU M EXTRUSIO N FUNDAMENTAL S 299 6.2.2.4 ALLOY DEVELOPMENTS 310 6.2.2.5 NOVEL EXTRUSIO N METHOD S 312 6.2.2.6 BENDIN G OF MAGNESIU M EXTRUSION S 314 6.3 MAGNESIU M MATRI X COMPOSITES NORBERT HORT, HAJO DIERINGA, SANDAY T. KUMAR, KARL ULRICH KAINER 315 6.3.1 INTRODUCTIO N 315 6.3.2 REINFORCEMENTS 319 6.3.2.1 PARTICLE-REINFORCEMENT 320 6.3.2.2 FIBRE-REINFORCEMENT 321 6.3.2.3 WHISKER 322 6.3.2.4 HYBRID S 322 6.3.3 MANUFACTURIN G 323 6.3.3.1 INGOT METALLURGY 323 6.3.3.2 POWDER METALLURGY 326 6.3.4 INTERFACES 329 6.3.5 ALLOYS AN D COMPOSITES 331 6.3.6 MACHININ G AN D RECYCLING 333 6.3.7 CORROSIO N 334 6.4 JOINING 335 6.4.1 MOTIVATION AN D REQUIREMENT S GERSON MESCHUT 335 6.4.2 JOINING MAGNESIU M GUNTER H. DEINZER 336 6.4.3 WELDING AN D OTHE R THERMA L PROCESSES GUENTER H. DEINZER, MICHAEL RETHMEIER 349 6.4.3.1 WELDABILITY OF MAGNESIU M ALLOYS 349 6.4.3.2 TIG WELDING 349 6.4.3.3 MIG WELDING 349 6.4.3.4 LASER-BEAM WELDING 356 6.4.3.5 ELECTRON-BEAM WELDING 359 6.4.3.6 FRICTIO N WELDING 359 6.4.3.7 BRAZING AN D SOLDERING 364 6.4.4 ADHESIVE BONDING OTTO-DIEDRICH HENNEMANN 365 6.4.4.1 INTRODUCTIO N 365 6.4.4.2 ADHESIVES 367 6.4.4.3 PRE-TREATMEN T 369 6.4.4.4 ADHESIVE BONDING TECHNOLOGY 371 6.4.4.5 STRENGT H AN D TESTING 372 6.4.4.6 DEVELOPMENT TENDENCIES 373 6.4.5 MECHANICAL AN D HYBRI D JOINING GERSON MESCHUT 374 6.4.5.1 CLINCHING 374 6.4.5.2 RIVETING 377 6.4.5.3 DIRECT SCREWING (SELF-PIERCING/-TAPPING) 385 6.4.5.4 FOLDING 392 6.4.5.5 HYBRI D JOINING 394 6.4.5.6 CONCLUSION AN D OUTVIEW 396 6.5 MACHININ G HANS KURT T OENSHOFF, BEREND DENKENA, JENS WINKLER, CHRISTIAN PODOLSKY 398 6.5.1 MACHINING 398 6.5.1.1 MACHININ G OF NO T REINFORCED MAGNESIU M ALLOYS 399 6.5.1.2 MACHININ G OF REINFORCED MG ALLOYS 406 6.5.1.3 COOLING LUBRICANTS 409 6.5.2 BURNISHIN G 411 REFERENCES 418 7 CORROSION AND SURFACE PROTECTIONS 431 7.1 SURFACE TREATMENTS AN D PROTECTIO N PETER KURZE 431 7.1.1 INTRODUCTIO N 431 7.1.2 PASSIVATION PROPERTIE S OF MAGNESIUM-BASED MATERIALS IN AIR . . 432 7.1.2.1 RESISTANCE OF TH E PASSIVATED LAYER TO CHEMICALS . . 433 7.1.3 SURFACE TREATMENT OF MAGNESIUM-BASED MATERIALS 433 7.1.3.1 PRINCIPLE S AN D PREREQUISITES FOR OPTIMU M SURFACE PROTECTIO N . . 433 7.1.3.2 PRELIMINAR Y TREATMENT 437 7.1.3.3 CONVERSION COATINGS PROVIDED B Y ELECTROLESS ELECTROCHEMICAL SURFACE TREATMENT 439 7.1.3.4 CONVERSION COATINGS PROVIDE D B Y ANODI C OXIDATION 450 7.1.3.5 CONVERSION COATINGS PROVIDED BY ANODI C PLASMA-CHEMICAL REACTION IN TH E ELECTROLYTE 455 7.1.3.6 GALVANIC-DEPOSIT COATINGS 466 7.1.3.7 APPLICATION OF COATINGS USING PHYSICAL METHOD S 467 7.1.3.8 ORGANIC COATING SYSTEMS 467 7.2 CORROSIO N JIM HILLIS 469 7.2.1 INTRODUCTIO N 469 7.2.2 MAGNESIU M PROTECTIVE FILMS 469 7.2.3 METALLURGICAL FACTORS IN TH E CORROSIO N OF ALLOYS 470 7.2.4 STRESS CORROSIO N 481 7.2.5 CORROSIO N FATIGUE 482 7.2.6 COMMO N CAUSES OF CORROSIO N FAILURE 484 7.2.7 ENVIROMENTA L FACTORS 488 7.2.7.1 ACIDITY/ALKALINITY 488 7.2.7.2 SPECIFIC IONS/SALTS 488 7.2.7.3 ELEVATED TEMPERATURE 489 7.2.7.4 ORGANIC COMPOUND S 489 7.2.8 GALVANIC CORROSION/SELECTION OF FASTENERS 490 REFERENCES 494 8 ENGINEERING REQUIREMENTS, STRATEGIES AND EXAMPLES 499 8.1 AUTOMOTIVE APPLICATIONS IN EUROPE SOENKE SCHUMANN, HORST E. FRIEDRICH 499 8.1.1 INTRODUCTIO N 499 8.1.2 POTENTIAL USE OF MAGNESIU M I N VEHICLES 503 8.1.3 AUTOMOTIVE APPLICATIONS - EXAMPLES 506 8.1.3.1 DRIVE TRAI N TRAIN APPLICATIONS 506 8.1.3.2 INTERIO R APPLICATIONS 519 8.1.3.3 BODY 527 8.1.3.4 CHASSIS 554 8.1.4 LIFE CYCLE ASSESSMENT 559 8.1.4.1 LIFE CYCLE INVENTOR Y OF VEHICLES 560 8.1.4.2 LIFE CYCLE INVENTOR Y OF MAGNESIU M 563 8.1.5 STRATEGY AN D OUTLOOK 565 8.2 AUTOMOTIVE APPLICATIONS IN NORT H AMERICA GERALD COLE 569 8.2.1 TRANSPORTATIO N INDUSTR Y 569 8.2.1.1 INTRODUCTIO N AN D BACKGROUN D 569 8.2.1.2 MAGNESIU M I N TH E 1970S 570 8.2.1.3 MAGNESIU M IN TH E 1980S 570 8.2.1.4 MAGNESIU M IN TH E 1990S 571 8.2.1.5 MAGNESIU M I N NA VS EUROPE 573 8.2.1.6 ENGINEERIN G MAGNESIU M APPICATIONS 589 8.2.2 NON-AUTOMOTIVE USES FOR MAGNESIU M 593 8.2.2.1 ELECTRONICS/COMMUNICATIO N 593 8.2.2.2 HAN D TOOLS 593 8.2.2.3 SPORTS EQUIPMEN T 594 8.2.2.4 AEROSPACE 594 8.2.3 MAGNESIU M MANUFACTURIN G IN NORT H AMERICA 594 8.2.3.1 SEMI-SOLID METAL CASTING (SSM) 595 8.2.3.2 THIXOMOLDIN G (TXM) 595 8.2.3.3 MAGNESIU M CAN REPLACE POLYMERS 597 8.2.3.4 MAGNESIU M CAN B E FABRICATED INT O MACRO-COMPOSITES OF PLASTICS AN D METALS 597 8.2.3.5 ALLOYS DESIGNED ESPECIALLY FOR SSM AN D TXM 597 8.2.3.6 REDESIGNING PART S AN D ASSEMBLIES 598 8.2.3.7 THERMA L MANAGEMEN T AN D IMPROVEMEN T OF TXM 598 8.2.3.8 SUMMAR Y 599 8.2.4 MAGNESIU M R&D I N NORT H AMERIC A 600 8.2.4.1 USCAR PROGRAM S . . . 600 8.3 MAGNESIU M AEROSPACE FRANCIS H. FROES, DAN ELIEZER, ELI AGHION 603 8.3.1 BACKGROUN D 603 8.3.2 PAST AEROSPACE USE 607 8.3.3 BARRIER S T O MAGNESIU M USE I N AEROSPACE 617 8.4 CONSUME R APPLICATIONS OF MAGNESIU M STEVE ERICKSON 620 8.4.1 LOGISTICS 621 8.4.2 POWER HAN D TOOLS 621 8.4.3 LAWN AN D GARDEN EQUIPMEN T 623 8.4.4 CONCRETE HANDLIN G TOOLS AN D EQUIPMEN T 623 8.4.5 COMPUTER S AN D COMPUTE R HARDWAR E 624 8.4.6 ELECTRONIC EQUIPMEN T 625 8.4.7 OPTICAL EQUIPMEN T 625 8.4.8 SPORTS EQUIPMEN T . 626 8.4.9 GALVANIC APPLICATIONS 627 8.4.10 MISCELLANEOUS CONSUME R APPLICATIONS . . 628 REFERENCES 629 9 RECYCLING HAKON WESTENGEN 633 9.1 INTRODUCTIO N 633 9.2 CLASSIFICATION SYSTEM 634 9.2.1 PROCESS OVERVIEW 635 9.2.2 CLASS 1 636 9.2.2.1 FLUX-BASED SYSTEMS 637 9.2.2.2 IN-HOUS E RECYCLING 638 9.2.2.3 IN-CELL RECYCLING 639 9.2.3 CLASS 2 640 9.2.4 CLASS 3 640 9.2.5 CLASS 4 641 9.2.6 CLASS 5 641 9.2.7 CLASS 6 642 9.2.8 CLASS 7 643 9.2.9 CLASS 8 645 9.3 RECYCLING USING FLUX 645 9.3.1 PRINCIPLES 645 9.3.1.1 THERMODYNAMI C RESTRICTION S 647 9.4 FLUXLESS REFINING 647 9.4.1 PRINCIPLES 648 9.4.2 SYSTEMS INVOLVING FILTERS 649 9.5 CONTAMINATIO N CONTROL 650 9.5.1 ADDITIONA L SOURCES OF TRACE ELEMENTS AN D INCLUSIONS DURIN G RECYCLING 651 9.5.2 EFFECTS AN D REMOVAL OF SOME TRACE ELEMENTS 652 9.5.2.1 NICKEL 652 9.5.2.2 IRO N 653 9.5.2.3 COPPER 653 9.5.2.4 COBALT . . 653 9.5.2.5 HYDROGEN 655 9.5.2.6 OTHE R ELEMENTS 655 9.5.3 EFFECTS OF INCLUSIONS 656 9.5.4 MEASUREMENT S OF INCLUSIONS 656 9.6 CONCLUDING REMARKS 659 REFERENCES 660 SUBJECT INDEX 665
adam_txt	CONTENTS 1 HISTORY 1 1.1 HISTOR Y UNTI L 1945 KURTHARBODT 1 1.1.1 ASIA 1 1.1.2 AUSTRALIA 2 1.1.3 EUROPE 2 1.1.4 NORT H AMERICA 8 1.2 HISTOR Y SINCE 1945 ROBERT E. BROWN 12 1.2.1 PRODUCTIO N 12 1.2.2 APPLICATIONS 20 REFERENCES 28 2 PRODUCTION TECHNOLOGIES OF MAGNESIUM GILAD GOLUB, ELI AGHION 29 2.1 INTRODUCTIO N 29 2.2 RAW MATERIALS FOR MAGNESIU M PRODUCTIO N 30 2.2.1 MAGNESITE 31 2.2.2 DOLOMITE 31 2.2.3 BISCHOFITE 31 2.2.4 CARNALLITE 31 2.2.5 SERPENTIN E 32 2.2.6 SEA WATER 32 2.3 ELECTROCHEMICAL METHOD S 33 2.3.1 PREPARATIO N OF MAGNESIU M CHLORIDE SALTS FROM NATURA L RAW MATERIALS 33 2.3.2 DRYIN G MAGNESIUM CHLORIDE SALTS 35 2.3.3 ELECTROLYSIS OF MAGNESIU M SALTS 36 2.3.3.1 TYPE OF ELECTROLYTES FOR ELECTROLYSIS 36 2.3.3.2 THERMA L BALANCE OF TH E ELECTROLYSIS CELL 37 2.3.3.3 INCREASIN G TH E MAGNESIU M OUTPU T BY MEANS OF ARTIFICIAL COOLING 39 2.3.4 TYPES OF ELECTRODES IN TH E ELECTROLYSIS CELLS 39 2.3.5 STRUCTUR E OF TH E ELECTROLYSIS CELLS 41 2.3.6 OPERATIO N OF ELECTROLYSIS CELL 42 2.3.7 REFINING RAW MAGNESIU M PRODUCE D B Y ELECTROCHEMICAL METHOD S 43 2.3.8 INDUSTRIA L METHOD S FOR ELECTROCHEMICAL PRODUCTIO N 44 2.3.8.1 DSM AN D RUSSIAN PROCESS 44 2.3.8.2 THE DOW PROCESS 46 2.3.8.3 THE MAGCORP (NOW US MAG) PROCESS 47 2.3.8.4 THE HYDRO MAGNESIU M PROCESS 47 2.3.8.5 THE MAGNOLA PROCESS 49 2.3.8.6 THE AMC PROCESS 50 2.4 THERMA L REDUCTION METHOD S 52 2.4.1 PREPARATIO N OF RAW MATERIAL AN D THERMA L REDUCTIO N METHO D . . 52 2.4.2 INDUSTRIA L METHOD S WIT H THERMA L REDUCTIO N 52 2.4.2.1 SILICOTHERMIC PROCESSES 52 2.4.2.2 ALUMINOTHERMI C PROCESSES 56 2.4.2.3 CARBOTHERMI C PROCESS 57 2.4.3 COLLECTION AN D REFINING TH E RAW MAGNESIU M PRODUCE D B Y THERMA L REDUCTIO N 58 2.5 ADVANTAGES AN D DISADVANTAGES OF ELECTROLYTIC PRODUCTIO N VERSUS THERMA L REDUCTIO N METHOD S 59 REFERENCES 60 3 PHYSICAL METALLURGY BARRY L. MORDIKE, PAVEL LUKAC 63 3.1 INTRODUCTIO N 63 3.2 PROPERTIE S OF PUR E MAGNESIU M 63 3.2.1 ATOMIC PROPERTIE S 63 3.2.2 ELECTRON STATES 64 3.2.3 LATTICE PARAMETER S 64 3.2.4 THERMA L EXPANSIO N 65 3.2.5 DENSIT Y 65 3.2.6 THERMODYNAMI C PROPERTIE S 65 3.2.7 DIFFUSION 65 3.2.8 THERMA L CONDUCTIO N 66 3.2.9 ELASTIC MODUL I 68 3.2.10 DAMPIN G CAPACIT Y 68 3.2.11 DEFORMATION BEHAVIOR 74 3.2.12 STRENGTHENIN G MECHANISM S 75 3.2.12.1 DISLOCATION STRENGTHENIN G 76 3.2.12.2 SOLID SOLUTION HARDENIN G 76 3.2.12.3 PRECIPITATIO N STRENGTHENIN G 77 3.2.12.4 DISPERSION STRENGTHENIN G 78 3.2.12.5 STRENGTHENIN G BY GRAIN SIZE REFINEMENT 78 3.3 MAGNESIU M ALLOYS 79 3.3.1 COMMO N ALLOYING ELEMENTS 80 3.3.1.1 ALUMINU M . . . 80 3.3.1.2 CALCIUM 80 3.3.1.3 LITHIUM 80 3.3.1.4 MANGANESE . . . 81 3.3.1.5 RARE EARTH S 81 3.3.1.6 SILICON 81 3.3.1.7 SILVER 81 3.3.1.8 THORIU M 81 3.3.1.9 YTTRIUM 81 3.3.1.10 ZINC 81 3.3.1.11 ZIRCONIU M 81 3.3.2 ELEMENTS USED FOR MANUFACTURIN G PURPOSE S OR IMPURITIE S . . 82 3.3.2.1 BERYLLIUM 82 3.3.2.2 COPPER 82 3.3.2.3 IRO N 82 3.3.2.4 NICKEL 82 3.3.2.5 TIN 82 3.3.3 CLASSIFICATION OF ALLOYS 82 3.4 PHASE DIAGRAM S 84 3.4.1 CONVENTIONAL ALLOYS 84 3.4.1.1 MAGNESIUM-ALUMINU M 84 3.4.1.2 MAGNESIUM-ZIN C 84 3.4.1.3 MAGNESIUM-MANGANES E 85 3.4.1.4 SUPER LIGHT WEIGHT ALLOYS 86 3.4.1.5 HIGH PERFORMANCE ALLOYS 87 3.4.1.6 MAGNESIUM-SCANDIU M 88 3.4.1.7 MAGNESIUM-ZIRCONIU M 89 3.4.2 HIGHE R SYSTEMS 90 3.5 COMMERCIAL ALLOY SYSTEMS 92 3.5.1 MAGNESIU M DIE CASTING ALLOYS (ZIRCONIUM FREE) 93 3.5.2 PERMANEN T MOULD, SAND AN D INVESTMEN T CASTING ALLOYS 94 3.5.2.1 MAGNESIUM-ZINC-ZIRCONIU M 94 3.5.2.2 MAGNESIUM-RAR E EARTH-ZINC-ZIRCONIU M (ZK61 AN D ZK62) . . 94 3.5.2.3 MAGNESIUM-SILVER 96 3.5.2.4 MAGNESIUM-YTTRIU M ALLOYS 96 3.5.3 FURTHE R DEVELOPMENT 96 3.5.4 HIGHLY CREEP RESISTANT ALLOYS 97 REFERENCES 102 APPENDIX . . 105 4 MELTING, ALLOYING AND REFINING 109 4.1 ZIRCONIUM-FRE E ALLOYS MIHRIBAN PEKGULERYUZ 109 4.1.1 MG-AL, MG-AL-ZN, AN D MG-AL-SI ALLOYS 109 4.1.1.1 FLUX MELTING AN D REFINING 109 4.1.1.2 FLUXLESS MELTING, AN D ALLOYING (TH E USE OF COVER GASES) 113 4.1.1.3 ALLOYING OF MG WIT H AL, ZN, SI 115 4.1.1.4 MANGANESE 116 4.1.1.5 BERYLLIUM 119 4.1.1.6 SILICON 121 4.1.2 MG-AL-(RARE-EARTH) ALLOYS 121 4.1.3 MG-AL-(ALKALINE EARTH ) ALLOYS 122 4.1.3.1 CALCIUM 123 4.1.3.2 STRONTIU M 123 4.1.4 MG-LIALLOYS 124 4.2 ALLOYS CONTAININ G ZIRCONIU M JOHN F. KING 128 4.2.1 INTRODUCTIO N 128 4.2.2 MECHANIS M OF GRAIN REFINEMENT BY ZIRCONIU M 128 4.2.3 EFFECT OF OTHE R ALLOYING ELEMENTS 131 4.2.3.1 INCOMPATIBL E ELEMENTS 131 4.2.3.2 COMPATIBLE ALLOY SYSTEMS 132 4.2.4 METHOD S OF INTRODUCIN G ZIRCONIU M 133 4.2.4.1 PRODUCT S AVAILABLE 133 4.2.4.2 BASIC PRINCIPLES OF ZR GRAIN REFINEMENT 133 4.2.4.3 ZIRCONIU M GRAIN REFINING I N FLUXED MELTS 135 4.2.4.4 ZIRCONIU M GRAIN REFINING IN FLUX-FREE MELTS 137 4.2.4.5 METHOD S OF ASSESSING GRAIN REFINEMENT 138 4.2.5 MELTING, ALLOYING PROCEDURE S FOR OTHE R ELEMENTS 139 REFERENCES 141 5 MAGNESIUM CASTING ALLOYS 145 5.1 CASTING ALLOYS HAKON WESTENGEN, TERJE KR. AUNE 145 5.1.1 INTRODUCTIO N 145 5.1.2 ALLOYING PRINCIPLES 146 5.1.2.1 PROPERTIE S OF PUR E MAGNESIU M 146 5.1.2.2 ALLOY PREPARATIO N . . . 146 5.1.2.3 ALLOYING ELEMENTS AN D THEIR INFLUENCE 149 5.1.3 CASTING METHOD S 162 5.1.4 ALLOYS FOR DIECASTING 166 5.1.4.1 COMPOSITION S 166 5.1.4.2 MICROSTRUCTURE S (HYDRO MAGNESIUM ) 167 5.1.4.3 PROPERTIE S 171 5.1.5 ALLOYS FOR SAND CASTING 198 5.1.5.1 COMPOSITION S 198 5.1.5.2 PROPERTIE S 199 5.2 WROUGHT ALLOYS CATRIN KAMMER 204 5.2.1 MAGNESIU M - ALUMINU M 208 5.2.2 MAGNESIU M - MANGANESE (M-ALLOYS) 210 5.2.3 MAGNESIU M - ALUMINU M - ZINC (AZ-ALLOYS) 210 5.2.4 MAGNESIU M - ZINC - ZIRCONIU M (ZK-ALLOYS) 212 5.2.5 MAGNESIU M - ZINC - RARE EART H (ZE-ALLOYS) 212 5.2.6 MAGNESIU M - YTTRIUM - RARE EART H (WE-ALLOYS) 212 5.2.7 MAGNESIU M - THORIUM , ZIRCONIU M OR MANGANESE (HK-AN D HM-ALLOYS) 213 5.2.8 MAGNESIU M - LITHIUM - ALLOYS (LA-ALLOYS) .21 3 5.2.9 OTHER WROUGHT ALLOYS 214 REFERENCES 214 6 TECHNOLOGY OF MAGNESIUM AND MAGNESIUM ALLOYS 219 6.1 CASTING 219 6.1.1 SAND CASTING JOHN F. KING 219 6.1.1.1 INTRODUCTIO N 219 6.1.1.2 SAND SYSTEMS 220 6.1.1.3 DESIGN OF RUNNIN G SYSTEMS 223 6.1.1.4 MOULD PREPARATIO N AN D ASSEMBLY 226 6.1.1.5 IDENTIFICATION AN D ELIMINATIO N OF DEFECTS 228 6.1.1.6 SAND CASTING TECHNIQUES . 229 6.1.1.7 HEAT TREATMENT 231 6.1.1.8 INSPECTIO N OF CASTINGS 232 6.1.2 DIE CASTING DIETER BRUNGS, ANDREAS MERTZ 234 6.1.2.1 DIE CASTING PROCESS FOR MAGNESIU M 234 6.1.2.2 DESIGN GUIDELINES FOR MAGNESIU M DIE CASTINGS 247 6.1.2.3 PROPERTIE S OF MAGNESIU M DIE CASTINGS 252 6.1.2.4 ENVIRONMENTA L IMPAC T 257 6.1.3 SQUEEZE CASTING, THIXOCASTIN G AN D RHEOCASTIN G HELMUT KAUFMANN, SIMON KLEINER 258 6.1.3.1 INTRODUCTIO N 258 6.1.3.2 SQUEEZE CASTING 259 6.1.3.3 SEMI-SOLID CASTING 261 6.2 FORMIN G 269 6.2.1 ROLLING AN D SHUT FORMIN G PETER JUCHMANN 269 6.2.1.1 SITUATION AN D POTENTIAL OF MAGNESIU M SHEET 269 6.2.1.2 FORMIN G OF MAGNESIU M AN D MAGNESIU M ALLOYS 272 6.2.1.3 MAGNESIU M ROLLING 274 6.2.1.4 MAGNESIU M SHEET 276 6.2.1.5 SHEET METAL FORMIN G 278 6.2.1.6 PROTOTYPIN G AN D APPLICATION PERSPECTIVES 284 6.2.1.7 CONCLUDING REMARK S AN D OUTLOO K 287 6.2.2 EXTRUSION , FORGING BERNARD CLOSSET 289 6.2.2.1 PRODUCTIO N OF CAST STOCK 289 6.2.2.2 EXTRUSIO N 294 6.2.2.3 MAGNESIU M EXTRUSIO N FUNDAMENTAL S 299 6.2.2.4 ALLOY DEVELOPMENTS 310 6.2.2.5 NOVEL EXTRUSIO N METHOD S 312 6.2.2.6 BENDIN G OF MAGNESIU M EXTRUSION S 314 6.3 MAGNESIU M MATRI X COMPOSITES NORBERT HORT, HAJO DIERINGA, SANDAY T. KUMAR, KARL ULRICH KAINER 315 6.3.1 INTRODUCTIO N 315 6.3.2 REINFORCEMENTS 319 6.3.2.1 PARTICLE-REINFORCEMENT 320 6.3.2.2 FIBRE-REINFORCEMENT 321 6.3.2.3 WHISKER 322 6.3.2.4 HYBRID S 322 6.3.3 MANUFACTURIN G 323 6.3.3.1 INGOT METALLURGY 323 6.3.3.2 POWDER METALLURGY 326 6.3.4 INTERFACES 329 6.3.5 ALLOYS AN D COMPOSITES 331 6.3.6 MACHININ G AN D RECYCLING 333 6.3.7 CORROSIO N 334 6.4 JOINING 335 6.4.1 MOTIVATION AN D REQUIREMENT S GERSON MESCHUT 335 6.4.2 JOINING MAGNESIU M GUNTER H. DEINZER 336 6.4.3 WELDING AN D OTHE R THERMA L PROCESSES GUENTER H. DEINZER, MICHAEL RETHMEIER 349 6.4.3.1 WELDABILITY OF MAGNESIU M ALLOYS 349 6.4.3.2 TIG WELDING 349 6.4.3.3 MIG WELDING 349 6.4.3.4 LASER-BEAM WELDING 356 6.4.3.5 ELECTRON-BEAM WELDING 359 6.4.3.6 FRICTIO N WELDING 359 6.4.3.7 BRAZING AN D SOLDERING 364 6.4.4 ADHESIVE BONDING OTTO-DIEDRICH HENNEMANN 365 6.4.4.1 INTRODUCTIO N 365 6.4.4.2 ADHESIVES 367 6.4.4.3 PRE-TREATMEN T 369 6.4.4.4 ADHESIVE BONDING TECHNOLOGY 371 6.4.4.5 STRENGT H AN D TESTING 372 6.4.4.6 DEVELOPMENT TENDENCIES 373 6.4.5 MECHANICAL AN D HYBRI D JOINING GERSON MESCHUT 374 6.4.5.1 CLINCHING 374 6.4.5.2 RIVETING 377 6.4.5.3 DIRECT SCREWING (SELF-PIERCING/-TAPPING) 385 6.4.5.4 FOLDING 392 6.4.5.5 HYBRI D JOINING 394 6.4.5.6 CONCLUSION AN D OUTVIEW 396 6.5 MACHININ G HANS KURT T OENSHOFF, BEREND DENKENA, JENS WINKLER, CHRISTIAN PODOLSKY 398 6.5.1 MACHINING 398 6.5.1.1 MACHININ G OF NO T REINFORCED MAGNESIU M ALLOYS 399 6.5.1.2 MACHININ G OF REINFORCED MG ALLOYS 406 6.5.1.3 COOLING LUBRICANTS 409 6.5.2 BURNISHIN G 411 REFERENCES 418 7 CORROSION AND SURFACE PROTECTIONS 431 7.1 SURFACE TREATMENTS AN D PROTECTIO N PETER KURZE 431 7.1.1 INTRODUCTIO N 431 7.1.2 PASSIVATION PROPERTIE S OF MAGNESIUM-BASED MATERIALS IN AIR . . 432 7.1.2.1 RESISTANCE OF TH E PASSIVATED LAYER TO CHEMICALS . . 433 7.1.3 SURFACE TREATMENT OF MAGNESIUM-BASED MATERIALS 433 7.1.3.1 PRINCIPLE S AN D PREREQUISITES FOR OPTIMU M SURFACE PROTECTIO N . . 433 7.1.3.2 PRELIMINAR Y TREATMENT 437 7.1.3.3 CONVERSION COATINGS PROVIDED B Y ELECTROLESS ELECTROCHEMICAL SURFACE TREATMENT 439 7.1.3.4 CONVERSION COATINGS PROVIDE D B Y ANODI C OXIDATION 450 7.1.3.5 CONVERSION COATINGS PROVIDED BY ANODI C PLASMA-CHEMICAL REACTION IN TH E ELECTROLYTE 455 7.1.3.6 GALVANIC-DEPOSIT COATINGS 466 7.1.3.7 APPLICATION OF COATINGS USING PHYSICAL METHOD S 467 7.1.3.8 ORGANIC COATING SYSTEMS 467 7.2 CORROSIO N JIM HILLIS 469 7.2.1 INTRODUCTIO N 469 7.2.2 MAGNESIU M PROTECTIVE FILMS 469 7.2.3 METALLURGICAL FACTORS IN TH E CORROSIO N OF ALLOYS 470 7.2.4 STRESS CORROSIO N 481 7.2.5 CORROSIO N FATIGUE 482 7.2.6 COMMO N CAUSES OF CORROSIO N FAILURE 484 7.2.7 ENVIROMENTA L FACTORS 488 7.2.7.1 ACIDITY/ALKALINITY 488 7.2.7.2 SPECIFIC IONS/SALTS 488 7.2.7.3 ELEVATED TEMPERATURE 489 7.2.7.4 ORGANIC COMPOUND S 489 7.2.8 GALVANIC CORROSION/SELECTION OF FASTENERS 490 REFERENCES 494 8 ENGINEERING REQUIREMENTS, STRATEGIES AND EXAMPLES 499 8.1 AUTOMOTIVE APPLICATIONS IN EUROPE SOENKE SCHUMANN, HORST E. FRIEDRICH 499 8.1.1 INTRODUCTIO N 499 8.1.2 POTENTIAL USE OF MAGNESIU M I N VEHICLES 503 8.1.3 AUTOMOTIVE APPLICATIONS - EXAMPLES 506 8.1.3.1 DRIVE TRAI N TRAIN APPLICATIONS 506 8.1.3.2 INTERIO R APPLICATIONS 519 8.1.3.3 BODY 527 8.1.3.4 CHASSIS 554 8.1.4 LIFE CYCLE ASSESSMENT 559 8.1.4.1 LIFE CYCLE INVENTOR Y OF VEHICLES 560 8.1.4.2 LIFE CYCLE INVENTOR Y OF MAGNESIU M 563 8.1.5 STRATEGY AN D OUTLOOK 565 8.2 AUTOMOTIVE APPLICATIONS IN NORT H AMERICA GERALD COLE 569 8.2.1 TRANSPORTATIO N INDUSTR Y 569 8.2.1.1 INTRODUCTIO N AN D BACKGROUN D 569 8.2.1.2 MAGNESIU M I N TH E 1970S 570 8.2.1.3 MAGNESIU M IN TH E 1980S 570 8.2.1.4 MAGNESIU M IN TH E 1990S 571 8.2.1.5 MAGNESIU M I N NA VS EUROPE 573 8.2.1.6 ENGINEERIN G MAGNESIU M APPICATIONS 589 8.2.2 NON-AUTOMOTIVE USES FOR MAGNESIU M 593 8.2.2.1 ELECTRONICS/COMMUNICATIO N 593 8.2.2.2 HAN D TOOLS 593 8.2.2.3 SPORTS EQUIPMEN T 594 8.2.2.4 AEROSPACE 594 8.2.3 MAGNESIU M MANUFACTURIN G IN NORT H AMERICA 594 8.2.3.1 SEMI-SOLID METAL CASTING (SSM) 595 8.2.3.2 THIXOMOLDIN G (TXM) 595 8.2.3.3 MAGNESIU M CAN REPLACE POLYMERS 597 8.2.3.4 MAGNESIU M CAN B E FABRICATED INT O MACRO-COMPOSITES OF PLASTICS AN D METALS 597 8.2.3.5 ALLOYS DESIGNED ESPECIALLY FOR SSM AN D TXM 597 8.2.3.6 REDESIGNING PART S AN D ASSEMBLIES 598 8.2.3.7 THERMA L MANAGEMEN T AN D IMPROVEMEN T OF TXM 598 8.2.3.8 SUMMAR Y 599 8.2.4 MAGNESIU M R&D I N NORT H AMERIC A 600 8.2.4.1 USCAR PROGRAM S . . . 600 8.3 MAGNESIU M AEROSPACE FRANCIS H. FROES, DAN ELIEZER, ELI AGHION 603 8.3.1 BACKGROUN D 603 8.3.2 PAST AEROSPACE USE 607 8.3.3 BARRIER S T O MAGNESIU M USE I N AEROSPACE 617 8.4 CONSUME R APPLICATIONS OF MAGNESIU M STEVE ERICKSON 620 8.4.1 LOGISTICS 621 8.4.2 POWER HAN D TOOLS 621 8.4.3 LAWN AN D GARDEN EQUIPMEN T 623 8.4.4 CONCRETE HANDLIN G TOOLS AN D EQUIPMEN T 623 8.4.5 COMPUTER S AN D COMPUTE R HARDWAR E 624 8.4.6 ELECTRONIC EQUIPMEN T 625 8.4.7 OPTICAL EQUIPMEN T 625 8.4.8 SPORTS EQUIPMEN T . 626 8.4.9 GALVANIC APPLICATIONS 627 8.4.10 MISCELLANEOUS CONSUME R APPLICATIONS . . 628 REFERENCES 629 9 RECYCLING HAKON WESTENGEN 633 9.1 INTRODUCTIO N 633 9.2 CLASSIFICATION SYSTEM 634 9.2.1 PROCESS OVERVIEW 635 9.2.2 CLASS 1 636 9.2.2.1 FLUX-BASED SYSTEMS 637 9.2.2.2 IN-HOUS E RECYCLING 638 9.2.2.3 IN-CELL RECYCLING 639 9.2.3 CLASS 2 640 9.2.4 CLASS 3 640 9.2.5 CLASS 4 641 9.2.6 CLASS 5 641 9.2.7 CLASS 6 642 9.2.8 CLASS 7 643 9.2.9 CLASS 8 645 9.3 RECYCLING USING FLUX 645 9.3.1 PRINCIPLES 645 9.3.1.1 THERMODYNAMI C RESTRICTION S 647 9.4 FLUXLESS REFINING 647 9.4.1 PRINCIPLES 648 9.4.2 SYSTEMS INVOLVING FILTERS 649 9.5 CONTAMINATIO N CONTROL 650 9.5.1 ADDITIONA L SOURCES OF TRACE ELEMENTS AN D INCLUSIONS DURIN G RECYCLING 651 9.5.2 EFFECTS AN D REMOVAL OF SOME TRACE ELEMENTS 652 9.5.2.1 NICKEL 652 9.5.2.2 IRO N 653 9.5.2.3 COPPER 653 9.5.2.4 COBALT . . 653 9.5.2.5 HYDROGEN 655 9.5.2.6 OTHE R ELEMENTS 655 9.5.3 EFFECTS OF INCLUSIONS 656 9.5.4 MEASUREMENT S OF INCLUSIONS 656 9.6 CONCLUDING REMARKS 659 REFERENCES 660 SUBJECT INDEX 665
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dewey-full	669.723
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dewey-ones	669 - Metallurgy
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discipline	Chemie / Pharmazie Maschinenbau / Maschinenwesen Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik Hüttenwesen, Metallurgie
discipline_str_mv	Chemie / Pharmazie Maschinenbau / Maschinenwesen Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik Hüttenwesen, Metallurgie
format	Book
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id	DE-604.BV020870037
illustrated	Illustrated
index_date	2024-07-02T13:25:46Z
indexdate	2024-07-09T20:27:07Z
institution	BVB
isbn	3540205993
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-014191793
oclc_num	62396756
open_access_boolean
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physical	XXII, 677 S. Ill., graph. Darst.
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publisher	Springer
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spelling	Magnesium technology metallurgy, design data, applications Horst E. Friedrich ... [(eds.)] Berlin [u.a.] Springer 2006 XXII, 677 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Magnesium alloys Magnesium Metallurgy Metallurgie (DE-588)4074756-6 gnd rswk-swf Magnesiumlegierung (DE-588)4168536-2 gnd rswk-swf Magnesium (DE-588)4128915-8 gnd rswk-swf Magnesium (DE-588)4128915-8 s DE-604 Magnesiumlegierung (DE-588)4168536-2 s Metallurgie (DE-588)4074756-6 s Friedrich, Horst E. (DE-588)103868496X edt DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014191793&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Magnesium technology metallurgy, design data, applications Magnesium alloys Magnesium Metallurgy Metallurgie (DE-588)4074756-6 gnd Magnesiumlegierung (DE-588)4168536-2 gnd Magnesium (DE-588)4128915-8 gnd
subject_GND	(DE-588)4074756-6 (DE-588)4168536-2 (DE-588)4128915-8
title	Magnesium technology metallurgy, design data, applications
title_auth	Magnesium technology metallurgy, design data, applications
title_exact_search	Magnesium technology metallurgy, design data, applications
title_exact_search_txtP	Magnesium technology metallurgy, design data, applications
title_full	Magnesium technology metallurgy, design data, applications Horst E. Friedrich ... [(eds.)]
title_fullStr	Magnesium technology metallurgy, design data, applications Horst E. Friedrich ... [(eds.)]
title_full_unstemmed	Magnesium technology metallurgy, design data, applications Horst E. Friedrich ... [(eds.)]
title_short	Magnesium technology
title_sort	magnesium technology metallurgy design data applications
title_sub	metallurgy, design data, applications
topic	Magnesium alloys Magnesium Metallurgy Metallurgie (DE-588)4074756-6 gnd Magnesiumlegierung (DE-588)4168536-2 gnd Magnesium (DE-588)4128915-8 gnd
topic_facet	Magnesium alloys Magnesium Metallurgy Metallurgie Magnesiumlegierung Magnesium
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014191793&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT friedrichhorste magnesiumtechnologymetallurgydesigndataapplications

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