Description

Book Synopsis
All metallic materials are prepared from the liquid state as their parent phase. Solidification is therefore one of the most important phase transformation in daily human life. Solidification is the transition from liquid to solid state of matter. The conditions under which material is transformed determines the physical and chemical properties of the as-solidified body. The processes involved, like nucleation and crystal growth, are governed by heat and mass transport.
Convection and undercooling provide additional processing parameters to tune the solidification process and to control solid material performance from the very beginning of the production chain.
To develop a predictive capability for efficient materials production the processes involved in solidification have to be understood in detail.
This book provides a comprehensive overview of the solidification of metallic melts processed and undercooled in a containerless manner
by drop tube, electromagnetic and electrostatic levitation, and experiments in reduced gravity.
The experiments are accompanied by model calculations on the influence of thermodynamic and hydrodynamic conditions that control
selection of nucleation mechanisms and modify crystal growth development throughout the solidification process.


Table of Contents
PREFACE

CONTAINERLESS UNDERCOOLING OF DROPS AND DROPLETS
Introduction
Drop Tubes
Containerless Processing Through Levitation
Summary and Conclusions

COMPUTER-AIDED EXPERIMENTS IN CONTAINERLESS PROCESSING OF MATERIALS
Introduction
Planning Experiments
Operating Experiments
Data Reduction, Analysis, Visualization, and Interpretation
Conclusion

DEMIXING OF CU -
CO ALLOYS SHOWING A METASTABLE MISCIBILITY GAP
Introduction
Mechanism of Demixing
Demixing Experiments in Terrestrial EML and in Low Gravity
Demixing Experiments in a Drop Tube
Spinodal Decomposition in Cu -
Co Melts
Conclusions

SHORT-RANGE ORDER IN UNDERCOOLED MELTS
Introduction
Experiments on the Short-Range Order of Undercooled Melts
Conclusions

ORDERING AND CRYSTAL NUCLEATION IN UNDERCOOLED MELTS
Introduction
Nucleation Theory -
Some Background
Liquid Metal Undercooling Studies
Coupling of Ordering in the Liquid to the Nucleation Barrier
Conclusions

PHASE-FIELD CRYSTAL MODELING OF HOMOGENEOUS AND HETEROGENEOUS CRYSTAL NUCLEATION
Introduction
Phase-Field Crystal Models
Homogeneous Nucleation
PFC Modeling of Heterogeneous NuCleation
Summary

EFFECTS OF TRANSIENT HEAT AND MASS TRANSFER ON COMPETITIVE NUCLEATION AND PHASE SELECTION IN DROP TUBE PROCESSING OF MULTICOMPONENT ALLOYS
Introduction
Model
Effect of Transient Heat and Mass Transfer on Nucleation and Crystal Growth
Competitive Nucleation and Phase Selection in Nd -
Fe -
B Droplets
Summary

CONTAINERLESS SOLIDIFICATION OF MAGNETIC MATERIALS USING THE ISAS/JAXA 26-METER DROP TUBE
Introduction
Drop Tube Process
Undercooling Solidification of Fe -
Rare Earth (RE) Magnetostriction Alloys
Undercooling Solidification of Nd -
Fe -
B Magnet Alloys
Concluding Remarks

NUCLEATION AND SOLIDIFICATION KINETICS OF METASTABLE PHASES IN UNDERCOOLED MELTS
Introduction
Thermodynamic Aspects and Nucleation of Metastable Phases
Metastable Phase Formation from Undercooled Melts in Various Alloy Systems
Summary and Conclusions

NUCLEATION WITHIN THE MUSHY ZONE
Introduction
Incubation Time
Cluster Formation
Transient Development of Heterogeneous Sites
Comparing Critical Nucleus Development Mechanisms
Concluding Remarks

MEASUREMENTS OF CRYSTAL GROWTH VELOCITIES IN UNDERCOOLED MELTS OF METALS
Introduction
Experimental Methods
Summary and Conclusions

CONTAINERLESS CRYSTALLIZATION OF SEMICONDUCTORS
Introduction
Status of Research on Facetted Dendrite Growth
Twin-Related Lateral Growth and Twin-free Continuous Growth
Containerless Crystallization of Si
Summery and Conclusion
Appendix 12.A: LKT Model

MEASUREMENTS OF CRYSTAL GROWTH DYNAMICS IN GLASS-FLUXED MELTS
Introduction
Methods and Experimental Set-Up
Growth Velocities in Pure Ni
Growth Velocities in Ni3Sn2 Compound
Crystal Growth Dynamics in Ni -
Sn Eutectic Alloys
Opportunities with High Magnetic Fields
Summary

INFLUENCE OF CONVECTION ON DENDRITE GROWTH BY THE AC -
DC LEVITATION TECHNIQUE
Convection in a Levitated Melt
Static Levitation Using the Alternating and Static Magnetic Field (AC -
DC Levitation)
Effect of Convection on Nucleation and Solidification

MODELING THE FLUID DYNAMICS AND DENDRITIC SOLIDIFICATION IN EM-LEVITATED ALLOY MELTS 321
Introduction
Mathematical Models for Levitation Thermofluid Dynamics
Thermoelectric Magnetohydrodynamics in Levitated Droplets
Concluding Remarks

FORCED FLOW EFFECT ON DENDRITIC GROWTH KINETICS IN A BINARY NONISOTHERMAL SYSTEM
Introduction
Convective Flow in Droplets Processed in Electromagnetic Levitation
The Model Equations
Predictions of the Model
Quantitative Evaluations
Summary and Conclusions

ATOMISTIC SIMULATIONS OF SOLUTE TRAPPING AND SOLUTE DRAG
Introduction
Models of Solute Trapping
Solute Drag
MD Simulations
Implications for Dendrite Growth

PARTICLE-BASED COMPUTER SIMULATION OF CRYSTAL NUCLEATION AND GROWTH KINETICS IN UNDERCOOLED MELTS
Introduction
Solid -
Liquid Interfaces in Nickel
Homogeneous Nucleation in Nickel
Crystal Growth
Conclusions

SOLIDIFICATION MODELING: FROM ELECTROMAGNETIC LEVITATION TO ATOMIZATION PROCESSING
Introduction
Electromagnetic Levitation
Impulse Atomization
Modeling
EML Sample
IA Particles
Conclusion

PROPERTIES OF P-SI-GE THERMOELECTRICAL MATERIAL SOLIDIFIED FROM UNDERCOOLED MELT LEVITATED BY SIMULTANEOUS IMPOSITION OF STATIC AND ALTERNATING MAGNETIC FIELDS
Introduction
Simultaneous Imposition of Static and Alternating Magnetic Fields
Experimental
Results and Discussion
Summary and Conclusions

QUANTITATIVE ANALYSIS OF ALLOY STRUCTURES SOLIDIFIED UNDER LIMITED DIFFUSION CONDITIONS
The Need for an Instrumented Drop Tube
Description of IA
Powder Characteristics
Quantification of Microstructure
Modeling

COUPLED GROWTH STRUCTURES IN UNIVARIANT AND INVARIANT EUTECTIC SOLIDIFICATION
Introduction
Historical Perspective and Background
Basic Theory of Eutectic Solidification
Eutectic Solidification Theory for Ternary Systems
Solidification Paths and Competitive Growth Considerations
Recent Developments, Emerging Issues, and Critical Research Needs

SOLIDIFICATION OF PERITECTIC ALLOYS
Introduction
Peritectic Equilibrium and Transformation
Peritectic Reactions in the Ternary System
Nucleation Studies
Growth
Conclusions

Solidification of Containerless Undercooled Melts

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    A Hardback by Dieter M. Herlach, Douglas M. Matson

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      View other formats and editions of Solidification of Containerless Undercooled Melts by Dieter M. Herlach

      Publisher: Wiley-VCH Verlag GmbH
      Publication Date: 18/07/2012
      ISBN13: 9783527331222, 978-3527331222
      ISBN10:
      Also in:
      Engineering thermodynamics Engineering: Mechanics of solids

      Description

      Book Synopsis
      All metallic materials are prepared from the liquid state as their parent phase. Solidification is therefore one of the most important phase transformation in daily human life. Solidification is the transition from liquid to solid state of matter. The conditions under which material is transformed determines the physical and chemical properties of the as-solidified body. The processes involved, like nucleation and crystal growth, are governed by heat and mass transport.
      Convection and undercooling provide additional processing parameters to tune the solidification process and to control solid material performance from the very beginning of the production chain.
      To develop a predictive capability for efficient materials production the processes involved in solidification have to be understood in detail.
      This book provides a comprehensive overview of the solidification of metallic melts processed and undercooled in a containerless manner
      by drop tube, electromagnetic and electrostatic levitation, and experiments in reduced gravity.
      The experiments are accompanied by model calculations on the influence of thermodynamic and hydrodynamic conditions that control
      selection of nucleation mechanisms and modify crystal growth development throughout the solidification process.


      Table of Contents
      PREFACE

      CONTAINERLESS UNDERCOOLING OF DROPS AND DROPLETS
      Introduction
      Drop Tubes
      Containerless Processing Through Levitation
      Summary and Conclusions

      COMPUTER-AIDED EXPERIMENTS IN CONTAINERLESS PROCESSING OF MATERIALS
      Introduction
      Planning Experiments
      Operating Experiments
      Data Reduction, Analysis, Visualization, and Interpretation
      Conclusion

      DEMIXING OF CU -
      CO ALLOYS SHOWING A METASTABLE MISCIBILITY GAP
      Introduction
      Mechanism of Demixing
      Demixing Experiments in Terrestrial EML and in Low Gravity
      Demixing Experiments in a Drop Tube
      Spinodal Decomposition in Cu -
      Co Melts
      Conclusions

      SHORT-RANGE ORDER IN UNDERCOOLED MELTS
      Introduction
      Experiments on the Short-Range Order of Undercooled Melts
      Conclusions

      ORDERING AND CRYSTAL NUCLEATION IN UNDERCOOLED MELTS
      Introduction
      Nucleation Theory -
      Some Background
      Liquid Metal Undercooling Studies
      Coupling of Ordering in the Liquid to the Nucleation Barrier
      Conclusions

      PHASE-FIELD CRYSTAL MODELING OF HOMOGENEOUS AND HETEROGENEOUS CRYSTAL NUCLEATION
      Introduction
      Phase-Field Crystal Models
      Homogeneous Nucleation
      PFC Modeling of Heterogeneous NuCleation
      Summary

      EFFECTS OF TRANSIENT HEAT AND MASS TRANSFER ON COMPETITIVE NUCLEATION AND PHASE SELECTION IN DROP TUBE PROCESSING OF MULTICOMPONENT ALLOYS
      Introduction
      Model
      Effect of Transient Heat and Mass Transfer on Nucleation and Crystal Growth
      Competitive Nucleation and Phase Selection in Nd -
      Fe -
      B Droplets
      Summary

      CONTAINERLESS SOLIDIFICATION OF MAGNETIC MATERIALS USING THE ISAS/JAXA 26-METER DROP TUBE
      Introduction
      Drop Tube Process
      Undercooling Solidification of Fe -
      Rare Earth (RE) Magnetostriction Alloys
      Undercooling Solidification of Nd -
      Fe -
      B Magnet Alloys
      Concluding Remarks

      NUCLEATION AND SOLIDIFICATION KINETICS OF METASTABLE PHASES IN UNDERCOOLED MELTS
      Introduction
      Thermodynamic Aspects and Nucleation of Metastable Phases
      Metastable Phase Formation from Undercooled Melts in Various Alloy Systems
      Summary and Conclusions

      NUCLEATION WITHIN THE MUSHY ZONE
      Introduction
      Incubation Time
      Cluster Formation
      Transient Development of Heterogeneous Sites
      Comparing Critical Nucleus Development Mechanisms
      Concluding Remarks

      MEASUREMENTS OF CRYSTAL GROWTH VELOCITIES IN UNDERCOOLED MELTS OF METALS
      Introduction
      Experimental Methods
      Summary and Conclusions

      CONTAINERLESS CRYSTALLIZATION OF SEMICONDUCTORS
      Introduction
      Status of Research on Facetted Dendrite Growth
      Twin-Related Lateral Growth and Twin-free Continuous Growth
      Containerless Crystallization of Si
      Summery and Conclusion
      Appendix 12.A: LKT Model

      MEASUREMENTS OF CRYSTAL GROWTH DYNAMICS IN GLASS-FLUXED MELTS
      Introduction
      Methods and Experimental Set-Up
      Growth Velocities in Pure Ni
      Growth Velocities in Ni3Sn2 Compound
      Crystal Growth Dynamics in Ni -
      Sn Eutectic Alloys
      Opportunities with High Magnetic Fields
      Summary

      INFLUENCE OF CONVECTION ON DENDRITE GROWTH BY THE AC -
      DC LEVITATION TECHNIQUE
      Convection in a Levitated Melt
      Static Levitation Using the Alternating and Static Magnetic Field (AC -
      DC Levitation)
      Effect of Convection on Nucleation and Solidification

      MODELING THE FLUID DYNAMICS AND DENDRITIC SOLIDIFICATION IN EM-LEVITATED ALLOY MELTS 321
      Introduction
      Mathematical Models for Levitation Thermofluid Dynamics
      Thermoelectric Magnetohydrodynamics in Levitated Droplets
      Concluding Remarks

      FORCED FLOW EFFECT ON DENDRITIC GROWTH KINETICS IN A BINARY NONISOTHERMAL SYSTEM
      Introduction
      Convective Flow in Droplets Processed in Electromagnetic Levitation
      The Model Equations
      Predictions of the Model
      Quantitative Evaluations
      Summary and Conclusions

      ATOMISTIC SIMULATIONS OF SOLUTE TRAPPING AND SOLUTE DRAG
      Introduction
      Models of Solute Trapping
      Solute Drag
      MD Simulations
      Implications for Dendrite Growth

      PARTICLE-BASED COMPUTER SIMULATION OF CRYSTAL NUCLEATION AND GROWTH KINETICS IN UNDERCOOLED MELTS
      Introduction
      Solid -
      Liquid Interfaces in Nickel
      Homogeneous Nucleation in Nickel
      Crystal Growth
      Conclusions

      SOLIDIFICATION MODELING: FROM ELECTROMAGNETIC LEVITATION TO ATOMIZATION PROCESSING
      Introduction
      Electromagnetic Levitation
      Impulse Atomization
      Modeling
      EML Sample
      IA Particles
      Conclusion

      PROPERTIES OF P-SI-GE THERMOELECTRICAL MATERIAL SOLIDIFIED FROM UNDERCOOLED MELT LEVITATED BY SIMULTANEOUS IMPOSITION OF STATIC AND ALTERNATING MAGNETIC FIELDS
      Introduction
      Simultaneous Imposition of Static and Alternating Magnetic Fields
      Experimental
      Results and Discussion
      Summary and Conclusions

      QUANTITATIVE ANALYSIS OF ALLOY STRUCTURES SOLIDIFIED UNDER LIMITED DIFFUSION CONDITIONS
      The Need for an Instrumented Drop Tube
      Description of IA
      Powder Characteristics
      Quantification of Microstructure
      Modeling

      COUPLED GROWTH STRUCTURES IN UNIVARIANT AND INVARIANT EUTECTIC SOLIDIFICATION
      Introduction
      Historical Perspective and Background
      Basic Theory of Eutectic Solidification
      Eutectic Solidification Theory for Ternary Systems
      Solidification Paths and Competitive Growth Considerations
      Recent Developments, Emerging Issues, and Critical Research Needs

      SOLIDIFICATION OF PERITECTIC ALLOYS
      Introduction
      Peritectic Equilibrium and Transformation
      Peritectic Reactions in the Ternary System
      Nucleation Studies
      Growth
      Conclusions

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