Verfügbarkeit: Phase transformations in multicomponent melts

Phase transformations in multicomponent melts:

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Bibliographische Detailangaben
Weitere Verfasser:	Herlach, Dieter M. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2008
Schlagworte:	Composite materials Melting points Phase transformations (Statistical physics) Phasenumwandlung Mehrstoffsystem Legierung Metallschmelze Aufsatzsammlung
Online-Zugang:	Inhaltstext http://d-nb.info/988815834/04 Inhaltsverzeichnis
Beschreibung:	XXIX, 438 S. Ill., graph. Darst.
ISBN:	9783527319947

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MARC


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Datensatz im Suchindex

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adam_text	VII CONTENTS FOREWORD V PREFACE XVII LIST OF CONTRIBUTORS XXI PART ONE THERMODYNAMICS 1 1 PHASE FORMATION IN MULTICOMPONENT MONOTECTIC AL-BASED ALLOYS 3 JOACHIM CR'DBNER, DJORDJE MIRKOVIC, AND RAINER SCHMID-FETZER 1.1 INTRODUCTION 3 1.2 EXPERIMENTAL METHODS 4 1.3 SYSTEMATIC CLASSIFICATION OF TERNARY MONOTECTIC PHASE DIAGRAMS 4 1.4 SELECTED TERNARY MONOTECTIC ALLOY SYSTEMS 6 1.4.1 AL-BI-ZN: TYPE 2A MONOTECTIC SYSTEM 6 1.4.2 AL-BI-SN: TYPE LB MONOTECTIC SYSTEM 6 1.4.3 AL-SN-CU: TYPE 3A MONOTECTIC SYSTEM 8 1.4.4 AL-BI-CU: TYPE 2B MONOTECTIC SYSTEM 9 1.4.5 BI-CU-SN: TYPE 3A MONOTECTIC SYSTEM 11 1.5 QUATERNARY MONOTECTIC AL-BI-CU-SN SYSTEM 11 1.6 CONCLUSION 15 2 LIQUID-LIQUID INTERFACIAL TENSION IN MULTICOMPONENT IMMISCIBLE AL-BASED ALLOYS 19 WALTER HOYER AND IVAN C. KABAN 2.1 INTRODUCTION 19 2.2 MEASUREMENT TECHNIQUE 21 2.3 EXPERIMENTAL DETAILS 24 2.4 RESULTS 25 2.5 DISCUSSION 30 2.5.1 COMPOSITION DEPENDENCES OF THE 1-1 INTERFACIAL TENSION 30 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/988815834 DIGITALISIERT DURCH VIII CONTENTS 2.5.4 2.6 3 3.1 3.2 3.2.1 3.2.2 3.2.3 3.3 3.3.1 3.3.2 3.3.3 3.4 3.4.1 3.4.2 3.4.3 3.5 WETTING PHENOMENA 34 SUMMARY 36 MONOTECTIC GROWTH MORPHOLOGIES AND THEIR TRANSITIONS 39 LORENZ RATKE, ANJA M'ULLER, MARTIN SEIFERT, AND CALINA KASPEROVICH INTRODUCTION 39 EXPERIMENTAL PROCEDURES 40 ALLOYS 40 ARTEMIS FACILITY 41 EVALUATION PROCEDURES 42 EXPERIMENTAL RESULTS 42 MICROSTRUCTURES 42 JACKSON-HUNT PLOT 45 STABILITY DIAGRAMS 46 DISCUSSION 47 FIBROUS MONOTECTIC GROWTH 47 TRANSITION FROM FIBERS TO STRING OF PEARLS 48 ORIGIN OF IRREGULAR DROPS 50 OUTLOOK 53 4 THERMAL EXPANSION AND SURFACE TENSION OF MULTICOMPONENT ALLOYS 55 CONTENTS IX 5.3.1 PREPARATION OF THE SAMPLE 75 5.3.2 GEOMETRICAL CORRECTION OF THE GROOVE COORDINATES 76 5.3.3 DETERMINATION OF THE LOCAL UNDERCOOLING 77 5.3.4 DETERMINING THE INTERFACE ENERGY 78 5.4 RESULTS AND DISCUSSION 79 5.4.1 AL-CU SYSTEM WITH EUTECTIC COMPOSITION 80 5.4.2 AL-CU-AG SYSTEM WITH INVARIANT EUTECTIC COMPOSITION 81 5.4.3 CONCENTRATION DEPENDENCE OF CTSL 83 5.5 SUMMARY AND CONCLUSIONS 84 6 PHASE EQUILIBRIA OF NANOSCALE METALS AND ALLOYS 87 GERHARD WILDE, PETER BUNZEL, HARALD ROSNER, ANDJORG WEISSMULLER 6.1 INTRODUCTION 87 6.2 PHASE STABILITY AND PHASE TRANSFORMATIONS IN NANOSCALE SYSTEMS 88 6.2.1 SINGLE-PHASE MATERIAL: EXTERNAL INTERFACES 88 6.2.2 BINARY NANOALLOYS: INTERNAL HETEROPHASE INTERFACES 97 6.3 SUMMARY 105 PART TWO MICROSCOPIC AND MACROSCOPIC DYNAMICS 109 7 MELT STRUCTURE AND ATOMIC DIFFUSION IN MULTICOMPONENT METALLIC MELTS 111 DIRK HOLLAND-MORITZ, OLIVER HEINEN, SURESH MAVILA CHATHOTH, ANJA INES POMMRICH, SEBASTIAN STUBER, THOMAS VOIGTMANN, AND ANDREAS MEYER 7. X CONTENTS 8.3.1 SYSTEMS WITH MIXING TENDENCY: AL-NI 136 8.3.2 SYSTEMS WITH DEMIXING TENDENCY: PD-CU-NI-P 137 9 PHASE BEHAVIOR AND MICROSCOPIC TRANSPORT PROCESSES IN BINARY METALLIC ALLOYS: COMPUTER SIMULATION STUDIES 141 SUBIR K. DAS, AH KERRACHE, JURGEN HORBACH, AND KURT BINDER 9.1 INTRODUCTION 141 9.2 TRANSPORT COEFFICIENTS 143 9.3 A SYMMETRIC LJ MIXTURE WITH A LIQUID-LIQUID DEMIXING TRANSITION 144 9.4 STRUCTURE, TRANSPORT, AND CRYSTALLIZATION IN AL-NI ALLOYS 148 9.5 SUMMARY 154 10 MOLECULAR DYNAMICS MODELING OF ATOMIC PROCESSES DURING CRYSTAL GROWTH IN METALLIC ALLOY MELTS 157 HELMAR TEICHLER AND MOHAMED CUERDANE 10.1 INTRODUCTION 157 10.2 ENTROPY AND FREE ENTHALPY OF ZR-RICH NI X ZRI_ X MELTS FROM MD SIMULATIONS AND THEIR APPLICATION TO THE THERMODYNAMICS OF CRYSTALLIZATION 158 10.2.1 SURVEY 158 10.2.2 RESULTS AND THEIR MEANING 158 10.2.2.1 THE METHOD THAT WORKS 158 10.2.2.2 FREE ENTHALPY RESULTS FOR ZR-RICH NI X ZRX_ X CONTENTS XI 11.2.1 FORCE BIASED ALGORITHM 172 11.2.2 THE NELDER-MEAD ALGORITHM 173 11.2.3 VORONOI TESSELLATION 174 11.3 RESULTS AND DISCUSSION 275 11.3.1 MONOATOMIC LIQUIDS 175 11.3.2 MULTICOMPONENT LIQUIDS 177 11.4 CONCLUSION 180 12 SOLIDIFICATION EXPERIMENTS IN SINGLE-COMPONENT AND BINARY COLLOIDAL MELTS 185 THOMAS PALBERG, NINA LORENZ, HANSJOACHIM SCHOPE, PATRICK WETTE, INA KLASSEN, DIRK HOLLAND-MORITZ, AND DIETER M. HERLACH 12.1 INTRODUCTION 185 12.2 EXPERIMENTAL PROCEDURE 186 12.2.1 TUNABLE INTERACTIONS IN CHARGED COLLOIDAL SUSPENSIONS 186 12.2.2 INSTRUMENTATION FOR TIME-RESOLVED STATIC LIGHT SCATTERING 190 12.3 RESULTS 193 12.3.1 THE FULL PHASE DIAGRAM OF CHARGE VARIABLE SYSTEMS 193 12.3.2 SHAPES OF PHASE DIAGRAMS OF CHARGED SPHERE MIXTURES 196 12.3.3 GROWTH OF BINARY COLLOIDAL CRYSTALS 199 12.3.4 QUANTITATIVE DETERMINATION OF NUCLEATION KINETICS AND EXTRACTION OF KEY PARAMETERS 203 12.3.5 INVESTIGATIONS ON THE STRUCTURE OF UNDERCOOLED MELTS 206 XIII CONTENTS 15 EFFECT OF VARYING MELT CONVECTION ON MICROSTRUCTURE EVOLUTION OF ND-FE-B AND TI-AL PERITECTIC ALLOYS 245 REGINA HERMANN, CUNTER CERBETH, KAUSHIK BISWAS, OCTAVIAN FILIP, VICTOR SHATROV, ANDJANIS PRIEDE 15.1 INTRODUCTION 245 15.2 METHODS DEVELOPED 246 15.2.1 FORCED ROTATION TECHNIQUE 246 15.2.1.1 EXPERIMENTAL 246 15.2.1.2 NUMERICAL SIMULATION 247 15.2.2 FLOATING ZONE FACILITY WITH ADDITIONAL MAGNETIC FIELD 248 15.2.2.1 EXPERIMENTAL 248 15.2.2.2 NUMERICAL SIMULATION 250 15.3 SAMPLE PREPARATION 251 15.4 RESULTS AND DISCUSSION 252 15.4.1 ND-FE-B ALLOYS 252 15.4.2 TI-AL ALLOYS 256 15.5 CONCLUSION 258 16 NANOSIZED MAGNETIZATION DENSITY PROFILES IN HARD MAGNETIC ND-FE-CO-AL CLASSES 263 OLIVIER PERROUD, ALBRECHT WIEDENMANN, MIHAI STOICA, ANDJURGEN ECKERT 16.1 INTRODUCTION 263 16.2 SANS WITH POLARIZED NEUTRONS IN UNSATURATED MAGNETIC SYSTEMS 265 16.3 EXPERIMENTAL PROCEDURE 267 16.3.1 SAMPLE PREPARATION 267 16.3.2 SANSPOL MEASUREMENTS 267 16.4 RESULTS AND DISCUSSION 268 16.4. CONTENTS XIII 17.4.2 TUNING THE METASTABLE HARD MAGNETIC AL ZONES 290 17.5 CONCLUSIONS 292 PART FOUR SOLIDIFICATION UND SIMULATION 297 18 SOLIDIFICATION OF BINARY ALLOYS WITH COMPOSITIONAL STRESSES* A PHASE-FIELD APPROACH 299 BO LIU AND KLAUS KASSNER 18.1 INTRODUCTION 299 18.2 EQUATIONS OF MOTION 301 18.3 NEUTRAL CURVES 304 18.4 PHASE-FIELD MODEL 305 18.5 SIMULATION RESULTS 306 18.6 CONCLUSIONS 308 19 ELASTIC EFFECTS ON PHASE TRANSITIONS IN MULTI-COMPONENT ALLOYS 321 EFIM A. BRENER, CLEMENS GUGENBERGER, HEINER MULLER-KRUMBHAAR, DENIS PILIPENKO, ROBERT SPATSCHEK, AND DMITRII E. TEMKIN 19.1 MELTING OF ALLOYS IN EUTECTIC AND PERITECTIC SYSTEMS 312 19.1.1 ISOTHERMAL MELTING IN EUTECTIC SYSTEM 313 19.1.2 ISOTHERMAL MELTING IN PERITECTIC SYSTEMS 315 19.2 COMBINED MOTION OF MELTING AND SOLIDIFICATION FRONTS 326 19.3 CONTINUUM THEORY OF FAST CRACK PROPAGATION 329 19.4 SUMMARY 323 20 MODELING OF NONISOTHERMAL MULTI-COMPONENT, MULTI-PHASE SYSTEMS WITH CONVECTION 325 XIV CONTENTS 21A SOLUTE TRAPPING DURING RAPID SOLIDIFICATION 345 21.5 COMPARISON OF MOLECULAR DYNAMICS AND PHASE-FIELD SIMULATIONS 345 21.6 MODELING OF EUTECTIC GROWTH 346 22 DENDRITE GROWTH AND GRAIN REFINEMENT IN UNDERCOOLED MELTS 353 PETER K. GALENKO AND DIETER M. HERLACH 22.1 INTRODUCTION 353 22.2 SOLIDIFICATION OF PURE (ONE-COMPONENT) SYSTEM 354 22.2.1 DIFFUSE INTERFACE MODEL 354 22.2.2 SHARP-INTERFACE MODEL 356 22.2.3 RESULTS OF NOMINALLY PURE NI 357 22.2.4 RESULTS ON CONGRUENTLY MELTING INTERMETALLIC ALLOY NISOALSO 359 22.3 SOLIDIFICATION OF BINARY ALLOYS WITH CONSTITUTIONAL EFFECTS 362 22.3.1 DIFFUSE INTERFACE MODEL 362 22.3.2 SHARP-INTERFACE MODEL AND GROWTH VELOCITIES OF BINARY NI-ZR ALLOYS 362 22.3.3 GRAIN REFINEMENT THROUGH UNDERCOOLING 364 22.4 SOLIDIFICATION OF A TERNARY ALLOY 366 22.4.1 DIFFUSE INTERFACE MODEL 366 22.4.2 SHARP-INTERFACE MODEL AND DENDRITE GROWTH VELOCITIES OF NI-ZR-AL 367 22.5 SUMMARY AND CONCLUSIONS 369 23 DENDRITIC SOLIDIFICATION IN THE DIFFUSE REGIME AND UNDER THE INFLUENCE OF BUOYANCY-DRIVE CONTENTS XV 24.2.1 THERMODYNAMIC PROPERTIES AND THERMODYNAMIC ASSESSMENT 390 24.2.2 BRIDGMAN EXPERIMENTS 391 24.3 INVESTIGATION ON THE TERNARY ALLOY SYSTEM IN-BI-SN 395 24.3.1 MEASUREMENT OF THERMODYNAMIC PROPERTIES AND THERMODYNAMIC ASSESSMENT 395 24.3.2 MICRO-BRIDGMAN ASSEMBLY 397 24.3.3 STATIONARY COUPLED GROWTH 398 24.4 TRANSIENT GROWTH 399 24.4.1 SOLIDIFICATION PATH DURING TRANSIENT SOLIDIFICATION 401 24.4.2 QUANTITATIVE COMPARISON TO SIMULATION: CALIBRATION OF DIFFUSION DATA 403 24.4.3 STATIONARY UNIVARIANT GROWTH: CALIBRATION OF INTERFACIAL ENERGIES 403 24.5 SUMMARY AND CONCLUSION 404 25 DENDRITIC MICROSTRUCTURE, DECOMPOSITION, AND METASTABLE PHASE FORMATION IN THE BULK METALLIC GLASS MATRIX COMPOSITE ZR 56 TII4NB5CU7NI6BE 12 407 SUSANNE SCHNEIDER, ALBERTO BRACCHI, YUE-LIN HUANG, MICHAEL SEIBT, AND PAPPANNAN THIYAGARAJAN 25.1 INTRODUCTION 407 25.2 EXPERIMENTAL PROCEDURES 409 25.3 RESULTS AND DISCUSSION 409 25.4 SUMMARY 418 INDE
adam_txt	VII CONTENTS FOREWORD V PREFACE XVII LIST OF CONTRIBUTORS XXI PART ONE THERMODYNAMICS 1 1 PHASE FORMATION IN MULTICOMPONENT MONOTECTIC AL-BASED ALLOYS 3 JOACHIM CR'DBNER, DJORDJE MIRKOVIC, AND RAINER SCHMID-FETZER 1.1 INTRODUCTION 3 1.2 EXPERIMENTAL METHODS 4 1.3 SYSTEMATIC CLASSIFICATION OF TERNARY MONOTECTIC PHASE DIAGRAMS 4 1.4 SELECTED TERNARY MONOTECTIC ALLOY SYSTEMS 6 1.4.1 AL-BI-ZN: TYPE 2A MONOTECTIC SYSTEM 6 1.4.2 AL-BI-SN: TYPE LB MONOTECTIC SYSTEM 6 1.4.3 AL-SN-CU: TYPE 3A MONOTECTIC SYSTEM 8 1.4.4 AL-BI-CU: TYPE 2B MONOTECTIC SYSTEM 9 1.4.5 BI-CU-SN: TYPE 3A MONOTECTIC SYSTEM 11 1.5 QUATERNARY MONOTECTIC AL-BI-CU-SN SYSTEM 11 1.6 CONCLUSION 15 2 LIQUID-LIQUID INTERFACIAL TENSION IN MULTICOMPONENT IMMISCIBLE AL-BASED ALLOYS 19 WALTER HOYER AND IVAN C. KABAN 2.1 INTRODUCTION 19 2.2 MEASUREMENT TECHNIQUE 21 2.3 EXPERIMENTAL DETAILS 24 2.4 RESULTS 25 2.5 DISCUSSION 30 2.5.1 COMPOSITION DEPENDENCES OF THE 1-1 INTERFACIAL TENSION 30 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/988815834 DIGITALISIERT DURCH VIII CONTENTS 2.5.4 2.6 3 3.1 3.2 3.2.1 3.2.2 3.2.3 3.3 3.3.1 3.3.2 3.3.3 3.4 3.4.1 3.4.2 3.4.3 3.5 WETTING PHENOMENA 34 SUMMARY 36 MONOTECTIC GROWTH MORPHOLOGIES AND THEIR TRANSITIONS 39 LORENZ RATKE, ANJA M'ULLER, MARTIN SEIFERT, AND CALINA KASPEROVICH INTRODUCTION 39 EXPERIMENTAL PROCEDURES 40 ALLOYS 40 ARTEMIS FACILITY 41 EVALUATION PROCEDURES 42 EXPERIMENTAL RESULTS 42 MICROSTRUCTURES 42 JACKSON-HUNT PLOT 45 STABILITY DIAGRAMS 46 DISCUSSION 47 FIBROUS MONOTECTIC GROWTH 47 TRANSITION FROM FIBERS TO STRING OF PEARLS 48 ORIGIN OF IRREGULAR DROPS 50 OUTLOOK 53 4 THERMAL EXPANSION AND SURFACE TENSION OF MULTICOMPONENT ALLOYS 55 CONTENTS IX 5.3.1 PREPARATION OF THE SAMPLE 75 5.3.2 GEOMETRICAL CORRECTION OF THE GROOVE COORDINATES 76 5.3.3 DETERMINATION OF THE LOCAL UNDERCOOLING 77 5.3.4 DETERMINING THE INTERFACE ENERGY 78 5.4 RESULTS AND DISCUSSION 79 5.4.1 AL-CU SYSTEM WITH EUTECTIC COMPOSITION 80 5.4.2 AL-CU-AG SYSTEM WITH INVARIANT EUTECTIC COMPOSITION 81 5.4.3 CONCENTRATION DEPENDENCE OF CTSL 83 5.5 SUMMARY AND CONCLUSIONS 84 6 PHASE EQUILIBRIA OF NANOSCALE METALS AND ALLOYS 87 GERHARD WILDE, PETER BUNZEL, HARALD ROSNER, ANDJORG WEISSMULLER 6.1 INTRODUCTION 87 6.2 PHASE STABILITY AND PHASE TRANSFORMATIONS IN NANOSCALE SYSTEMS 88 6.2.1 SINGLE-PHASE MATERIAL: EXTERNAL INTERFACES 88 6.2.2 BINARY NANOALLOYS: INTERNAL HETEROPHASE INTERFACES 97 6.3 SUMMARY 105 PART TWO MICROSCOPIC AND MACROSCOPIC DYNAMICS 109 7 MELT STRUCTURE AND ATOMIC DIFFUSION IN MULTICOMPONENT METALLIC MELTS 111 DIRK HOLLAND-MORITZ, OLIVER HEINEN, SURESH MAVILA CHATHOTH, ANJA INES POMMRICH, SEBASTIAN STUBER, THOMAS VOIGTMANN, AND ANDREAS MEYER 7. X CONTENTS 8.3.1 SYSTEMS WITH MIXING TENDENCY: AL-NI 136 8.3.2 SYSTEMS WITH DEMIXING TENDENCY: PD-CU-NI-P 137 9 PHASE BEHAVIOR AND MICROSCOPIC TRANSPORT PROCESSES IN BINARY METALLIC ALLOYS: COMPUTER SIMULATION STUDIES 141 SUBIR K. DAS, AH KERRACHE, JURGEN HORBACH, AND KURT BINDER 9.1 INTRODUCTION 141 9.2 TRANSPORT COEFFICIENTS 143 9.3 A SYMMETRIC LJ MIXTURE WITH A LIQUID-LIQUID DEMIXING TRANSITION 144 9.4 STRUCTURE, TRANSPORT, AND CRYSTALLIZATION IN AL-NI ALLOYS 148 9.5 SUMMARY 154 10 MOLECULAR DYNAMICS MODELING OF ATOMIC PROCESSES DURING CRYSTAL GROWTH IN METALLIC ALLOY MELTS 157 HELMAR TEICHLER AND MOHAMED CUERDANE 10.1 INTRODUCTION 157 10.2 ENTROPY AND FREE ENTHALPY OF ZR-RICH NI X ZRI_ X MELTS FROM MD SIMULATIONS AND THEIR APPLICATION TO THE THERMODYNAMICS OF CRYSTALLIZATION 158 10.2.1 SURVEY 158 10.2.2 RESULTS AND THEIR MEANING 158 10.2.2.1 THE METHOD THAT WORKS 158 10.2.2.2 FREE ENTHALPY RESULTS FOR ZR-RICH NI X ZRX_ X CONTENTS XI 11.2.1 FORCE BIASED ALGORITHM 172 11.2.2 THE NELDER-MEAD ALGORITHM 173 11.2.3 VORONOI TESSELLATION 174 11.3 RESULTS AND DISCUSSION 275 11.3.1 MONOATOMIC LIQUIDS 175 11.3.2 MULTICOMPONENT LIQUIDS 177 11.4 CONCLUSION 180 12 SOLIDIFICATION EXPERIMENTS IN SINGLE-COMPONENT AND BINARY COLLOIDAL MELTS 185 THOMAS PALBERG, NINA LORENZ, HANSJOACHIM SCHOPE, PATRICK WETTE, INA KLASSEN, DIRK HOLLAND-MORITZ, AND DIETER M. HERLACH 12.1 INTRODUCTION 185 12.2 EXPERIMENTAL PROCEDURE 186 12.2.1 TUNABLE INTERACTIONS IN CHARGED COLLOIDAL SUSPENSIONS 186 12.2.2 INSTRUMENTATION FOR TIME-RESOLVED STATIC LIGHT SCATTERING 190 12.3 RESULTS 193 12.3.1 THE FULL PHASE DIAGRAM OF CHARGE VARIABLE SYSTEMS 193 12.3.2 SHAPES OF PHASE DIAGRAMS OF CHARGED SPHERE MIXTURES 196 12.3.3 GROWTH OF BINARY COLLOIDAL CRYSTALS 199 12.3.4 QUANTITATIVE DETERMINATION OF NUCLEATION KINETICS AND EXTRACTION OF KEY PARAMETERS 203 12.3.5 INVESTIGATIONS ON THE STRUCTURE OF UNDERCOOLED MELTS 206 XIII CONTENTS 15 EFFECT OF VARYING MELT CONVECTION ON MICROSTRUCTURE EVOLUTION OF ND-FE-B AND TI-AL PERITECTIC ALLOYS 245 REGINA HERMANN, CUNTER CERBETH, KAUSHIK BISWAS, OCTAVIAN FILIP, VICTOR SHATROV, ANDJANIS PRIEDE 15.1 INTRODUCTION 245 15.2 METHODS DEVELOPED 246 15.2.1 FORCED ROTATION TECHNIQUE 246 15.2.1.1 EXPERIMENTAL 246 15.2.1.2 NUMERICAL SIMULATION 247 15.2.2 FLOATING ZONE FACILITY WITH ADDITIONAL MAGNETIC FIELD 248 15.2.2.1 EXPERIMENTAL 248 15.2.2.2 NUMERICAL SIMULATION 250 15.3 SAMPLE PREPARATION 251 15.4 RESULTS AND DISCUSSION 252 15.4.1 ND-FE-B ALLOYS 252 15.4.2 TI-AL ALLOYS 256 15.5 CONCLUSION 258 16 NANOSIZED MAGNETIZATION DENSITY PROFILES IN HARD MAGNETIC ND-FE-CO-AL CLASSES 263 OLIVIER PERROUD, ALBRECHT WIEDENMANN, MIHAI STOICA, ANDJURGEN ECKERT 16.1 INTRODUCTION 263 16.2 SANS WITH POLARIZED NEUTRONS IN UNSATURATED MAGNETIC SYSTEMS 265 16.3 EXPERIMENTAL PROCEDURE 267 16.3.1 SAMPLE PREPARATION 267 16.3.2 SANSPOL MEASUREMENTS 267 16.4 RESULTS AND DISCUSSION 268 16.4. CONTENTS XIII 17.4.2 TUNING THE METASTABLE HARD MAGNETIC AL ZONES 290 17.5 CONCLUSIONS 292 PART FOUR SOLIDIFICATION UND SIMULATION 297 18 SOLIDIFICATION OF BINARY ALLOYS WITH COMPOSITIONAL STRESSES* A PHASE-FIELD APPROACH 299 BO LIU AND KLAUS KASSNER 18.1 INTRODUCTION 299 18.2 EQUATIONS OF MOTION 301 18.3 NEUTRAL CURVES 304 18.4 PHASE-FIELD MODEL 305 18.5 SIMULATION RESULTS 306 18.6 CONCLUSIONS 308 19 ELASTIC EFFECTS ON PHASE TRANSITIONS IN MULTI-COMPONENT ALLOYS 321 EFIM A. BRENER, CLEMENS GUGENBERGER, HEINER MULLER-KRUMBHAAR, DENIS PILIPENKO, ROBERT SPATSCHEK, AND DMITRII E. TEMKIN 19.1 MELTING OF ALLOYS IN EUTECTIC AND PERITECTIC SYSTEMS 312 19.1.1 ISOTHERMAL MELTING IN EUTECTIC SYSTEM 313 19.1.2 ISOTHERMAL MELTING IN PERITECTIC SYSTEMS 315 19.2 COMBINED MOTION OF MELTING AND SOLIDIFICATION FRONTS 326 19.3 CONTINUUM THEORY OF FAST CRACK PROPAGATION 329 19.4 SUMMARY 323 20 MODELING OF NONISOTHERMAL MULTI-COMPONENT, MULTI-PHASE SYSTEMS WITH CONVECTION 325 XIV CONTENTS 21A SOLUTE TRAPPING DURING RAPID SOLIDIFICATION 345 21.5 COMPARISON OF MOLECULAR DYNAMICS AND PHASE-FIELD SIMULATIONS 345 21.6 MODELING OF EUTECTIC GROWTH 346 22 DENDRITE GROWTH AND GRAIN REFINEMENT IN UNDERCOOLED MELTS 353 PETER K. GALENKO AND DIETER M. HERLACH 22.1 INTRODUCTION 353 22.2 SOLIDIFICATION OF PURE (ONE-COMPONENT) SYSTEM 354 22.2.1 DIFFUSE INTERFACE MODEL 354 22.2.2 SHARP-INTERFACE MODEL 356 22.2.3 RESULTS OF NOMINALLY PURE NI 357 22.2.4 RESULTS ON CONGRUENTLY MELTING INTERMETALLIC ALLOY NISOALSO 359 22.3 SOLIDIFICATION OF BINARY ALLOYS WITH CONSTITUTIONAL EFFECTS 362 22.3.1 DIFFUSE INTERFACE MODEL 362 22.3.2 SHARP-INTERFACE MODEL AND GROWTH VELOCITIES OF BINARY NI-ZR ALLOYS 362 22.3.3 GRAIN REFINEMENT THROUGH UNDERCOOLING 364 22.4 SOLIDIFICATION OF A TERNARY ALLOY 366 22.4.1 DIFFUSE INTERFACE MODEL 366 22.4.2 SHARP-INTERFACE MODEL AND DENDRITE GROWTH VELOCITIES OF NI-ZR-AL 367 22.5 SUMMARY AND CONCLUSIONS 369 23 DENDRITIC SOLIDIFICATION IN THE DIFFUSE REGIME AND UNDER THE INFLUENCE OF BUOYANCY-DRIVE CONTENTS XV 24.2.1 THERMODYNAMIC PROPERTIES AND THERMODYNAMIC ASSESSMENT 390 24.2.2 BRIDGMAN EXPERIMENTS 391 24.3 INVESTIGATION ON THE TERNARY ALLOY SYSTEM IN-BI-SN 395 24.3.1 MEASUREMENT OF THERMODYNAMIC PROPERTIES AND THERMODYNAMIC ASSESSMENT 395 24.3.2 MICRO-BRIDGMAN ASSEMBLY 397 24.3.3 STATIONARY COUPLED GROWTH 398 24.4 TRANSIENT GROWTH 399 24.4.1 SOLIDIFICATION PATH DURING TRANSIENT SOLIDIFICATION 401 24.4.2 QUANTITATIVE COMPARISON TO SIMULATION: CALIBRATION OF DIFFUSION DATA 403 24.4.3 STATIONARY UNIVARIANT GROWTH: CALIBRATION OF INTERFACIAL ENERGIES 403 24.5 SUMMARY AND CONCLUSION 404 25 DENDRITIC MICROSTRUCTURE, DECOMPOSITION, AND METASTABLE PHASE FORMATION IN THE BULK METALLIC GLASS MATRIX COMPOSITE ZR 56 TII4NB5CU7NI6BE 12 407 SUSANNE SCHNEIDER, ALBERTO BRACCHI, YUE-LIN HUANG, MICHAEL SEIBT, AND PAPPANNAN THIYAGARAJAN 25.1 INTRODUCTION 407 25.2 EXPERIMENTAL PROCEDURES 409 25.3 RESULTS AND DISCUSSION 409 25.4 SUMMARY 418 INDE
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spelling	Phase transformations in multicomponent melts ed. by Dieter M. Herlach Weinheim WILEY-VCH 2008 XXIX, 438 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Composite materials Melting points Phase transformations (Statistical physics) Phasenumwandlung (DE-588)4132140-6 gnd rswk-swf Mehrstoffsystem (DE-588)4132152-2 gnd rswk-swf Legierung (DE-588)4035035-6 gnd rswk-swf Metallschmelze (DE-588)4169631-1 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Legierung (DE-588)4035035-6 s Metallschmelze (DE-588)4169631-1 s Mehrstoffsystem (DE-588)4132152-2 s Phasenumwandlung (DE-588)4132140-6 s DE-604 Herlach, Dieter M. (DE-588)112087868 edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3113004&prov=M&dok_var=1&dok_ext=htm Inhaltstext http://d-nb.info/988815834/04 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016761439&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Phase transformations in multicomponent melts Composite materials Melting points Phase transformations (Statistical physics) Phasenumwandlung (DE-588)4132140-6 gnd Mehrstoffsystem (DE-588)4132152-2 gnd Legierung (DE-588)4035035-6 gnd Metallschmelze (DE-588)4169631-1 gnd
subject_GND	(DE-588)4132140-6 (DE-588)4132152-2 (DE-588)4035035-6 (DE-588)4169631-1 (DE-588)4143413-4
title	Phase transformations in multicomponent melts
title_auth	Phase transformations in multicomponent melts
title_exact_search	Phase transformations in multicomponent melts
title_exact_search_txtP	Phase transformations in multicomponent melts
title_full	Phase transformations in multicomponent melts ed. by Dieter M. Herlach
title_fullStr	Phase transformations in multicomponent melts ed. by Dieter M. Herlach
title_full_unstemmed	Phase transformations in multicomponent melts ed. by Dieter M. Herlach
title_short	Phase transformations in multicomponent melts
title_sort	phase transformations in multicomponent melts
topic	Composite materials Melting points Phase transformations (Statistical physics) Phasenumwandlung (DE-588)4132140-6 gnd Mehrstoffsystem (DE-588)4132152-2 gnd Legierung (DE-588)4035035-6 gnd Metallschmelze (DE-588)4169631-1 gnd
topic_facet	Composite materials Melting points Phase transformations (Statistical physics) Phasenumwandlung Mehrstoffsystem Legierung Metallschmelze Aufsatzsammlung
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work_keys_str_mv	AT herlachdieterm phasetransformationsinmulticomponentmelts

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