Fundamentals of Metallurgy
The first part of the book reviews the effects of processing on the properties of metals with a range of chapters on such phenomena as phase transformations, types of kinetic reaction, transport and interfacial phenomena. Authors discuss how these processes and the resulting properties of metals can be modelled and predicted. Part 2 discusses the implications of this research for improving steelmaking and steel properties
Contents
The behaviour of metals during high-temperature processing
- Introduction
- Reactions involving gases and solids
- Reactions involving liquid phases
- Casting processes
- Thermomechanical processes
- References
- Appendix: notation
Thermodynamic aspects of metals processing
- Introduction
- Basic concepts in thermodynamics
- Chemical equilibrium
- Unary and multicomponent equilibria
- Thermodynamics of solutions
- Thermodynamics of multicomponent dilute solutions
- Modelling of metallic systems
- Thermodynamics of ionic melts
- Basics of electrochemical thermodynamics
- Conclusions
- Further reading
- References
Phase diagrams, phase transformations, and the prediction of metal properties
- Introduction
- Phase diagrams and potential diagrams
- Ternary phase diagrams
- Solidification in ternary systems and four phase equilibria
- Examples of solidification behaviour from a phase diagram perspective
- Conclusions
- References
Measurement and estimation of physical properties of metals at high temperatures
- Introduction
- Factors affecting physical properties and their measurement
- Measurements and problems
- Fluid flow properties
- Properties related to heat transfer
- Properties related to mass transfer
- Estimating metal properties
- References
- Appendix 1: calculation of structural parameters NBO/T and optical basicity
- Appendix 2: notation
Transport phenomena and metals properties
- Introduction
- Mass transfer
- Heat transfer
- Fluid flow
- Further reading
- References
Interfacial phenomena, metals processing, and properties
- Introduction
- Fundamentals of the interface
- Interfacial properties of a metallurgical melts system
- Interfacial phenomena in relation to metallurgical processing
- References
The kinetics of metallurgical reactions in metals processing
- Introduction
- Fundamentals of heterogeneous kinetics
- Solid-state reactions
- Gas–solid reactions
- Liquid–liquid reactions
- Solid–liquid reactions
- Gas–liquid reactions
- Comprehensive process modelling
- References
- Appendix: notation
Thermoanalytical methods in metals processing
- Introduction
- Thermogravimetry (TG)
- Differential thermal analysis (DTA) and differential scanning calorimetry (DSC)
- Evolved gas analysis (EGA) and detection (EGD)
- References
Improving process design in steel-making
- Introduction
- Overview of process design
- Thermodynamics and mass balance
- Kinetics – mass transfer and heat transfer
- Optimization of interfacial reactions
- Micro modelling
- Conclusions
- References
Solidification and steel casting
- Introduction
- Solidification fundamentals
- The growth of solids
- The casting of steels
- Conclusions
- References
- Acknowledgements
Analysing metal working processes
- Introduction
- Work hardening
- Rate effects
- Interaction with phase transformations
- Examples of material behaviour during processing
- Future trends
- References
Understanding and improving powder metallurgical processes
- Introduction
- Production processes for powders
- Forming processes towards near-net shape
- Conclusions
- References
Improving steel-making and steel properties
- Introduction
- Developing processes and properties with reference to market, energy, and environment
- Optimization of processes to meet properties and productivity
- Economic optimisation
- Environmental optimisation
- Future trends
- Further reading
- References
links
http://www.filefactory.com/file/c086c7/n/1855739275_rar
or
http://ifile.it/2kspham/afom.7z
or
http://www.megaupload.com/sa/?d=N8ZIQMZZ
The first part of the book reviews the effects of processing on the properties of metals with a range of chapters on such phenomena as phase transformations, types of kinetic reaction, transport and interfacial phenomena. Authors discuss how these processes and the resulting properties of metals can be modelled and predicted. Part 2 discusses the implications of this research for improving steelmaking and steel properties
Contents
The behaviour of metals during high-temperature processing
- Introduction
- Reactions involving gases and solids
- Reactions involving liquid phases
- Casting processes
- Thermomechanical processes
- References
- Appendix: notation
Thermodynamic aspects of metals processing
- Introduction
- Basic concepts in thermodynamics
- Chemical equilibrium
- Unary and multicomponent equilibria
- Thermodynamics of solutions
- Thermodynamics of multicomponent dilute solutions
- Modelling of metallic systems
- Thermodynamics of ionic melts
- Basics of electrochemical thermodynamics
- Conclusions
- Further reading
- References
Phase diagrams, phase transformations, and the prediction of metal properties
- Introduction
- Phase diagrams and potential diagrams
- Ternary phase diagrams
- Solidification in ternary systems and four phase equilibria
- Examples of solidification behaviour from a phase diagram perspective
- Conclusions
- References
Measurement and estimation of physical properties of metals at high temperatures
- Introduction
- Factors affecting physical properties and their measurement
- Measurements and problems
- Fluid flow properties
- Properties related to heat transfer
- Properties related to mass transfer
- Estimating metal properties
- References
- Appendix 1: calculation of structural parameters NBO/T and optical basicity
- Appendix 2: notation
Transport phenomena and metals properties
- Introduction
- Mass transfer
- Heat transfer
- Fluid flow
- Further reading
- References
Interfacial phenomena, metals processing, and properties
- Introduction
- Fundamentals of the interface
- Interfacial properties of a metallurgical melts system
- Interfacial phenomena in relation to metallurgical processing
- References
The kinetics of metallurgical reactions in metals processing
- Introduction
- Fundamentals of heterogeneous kinetics
- Solid-state reactions
- Gas–solid reactions
- Liquid–liquid reactions
- Solid–liquid reactions
- Gas–liquid reactions
- Comprehensive process modelling
- References
- Appendix: notation
Thermoanalytical methods in metals processing
- Introduction
- Thermogravimetry (TG)
- Differential thermal analysis (DTA) and differential scanning calorimetry (DSC)
- Evolved gas analysis (EGA) and detection (EGD)
- References
Improving process design in steel-making
- Introduction
- Overview of process design
- Thermodynamics and mass balance
- Kinetics – mass transfer and heat transfer
- Optimization of interfacial reactions
- Micro modelling
- Conclusions
- References
Solidification and steel casting
- Introduction
- Solidification fundamentals
- The growth of solids
- The casting of steels
- Conclusions
- References
- Acknowledgements
Analysing metal working processes
- Introduction
- Work hardening
- Rate effects
- Interaction with phase transformations
- Examples of material behaviour during processing
- Future trends
- References
Understanding and improving powder metallurgical processes
- Introduction
- Production processes for powders
- Forming processes towards near-net shape
- Conclusions
- References
Improving steel-making and steel properties
- Introduction
- Developing processes and properties with reference to market, energy, and environment
- Optimization of processes to meet properties and productivity
- Economic optimisation
- Environmental optimisation
- Future trends
- Further reading
- References
links
http://www.filefactory.com/file/c086c7/n/1855739275_rar
or
http://ifile.it/2kspham/afom.7z
or
http://www.megaupload.com/sa/?d=N8ZIQMZZ