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The Oxide Handbook

The continuous and ever expanding development of high-temperature tech­ nology involves the use of high -temperature refractory materials and one of the most important classes of these is the oxides, i.e., compounds of elements with oxygen. Oxides are the oldest refractory compounds known in technol...

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Bibliographic Details
Main Author: Samsonov, G. V.
Format: eBook
Language:English
Published: New York, NY Springer US 1973, 1973
Edition:1st ed. 1973
Series:IFI Data Base Library
Subjects:
Materials / Analysis
Characterization And Analytical Technique
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • 19. Diffusion Parameters for Oxygen into Metals and Nonmetals
  • 20. Diffusion Parameters for Elements into Oxides
  • 21. Rate of Evaporation
  • 22. Vapor Pressure
  • 23. Dissociation Pressure
  • 24. Thermal Stability Characteristics
  • 25. Free Energy Function of Gaseous Oxides
  • III. Mechanical Properties
  • 1. Modulus of Normal Elasticity
  • 2. Shear Modulus
  • 3. Poisson’s Ratio
  • 4. Tensile Strength
  • 5. Compressive Strength
  • 6. Bending Strength
  • 7. Dynamic Viscosity
  • 8. Hardness on Mineralogical Scale
  • 9. Microhardness
  • 10. Compressibility
  • 11. Elastic Constants
  • IV. Electrical and Magnetic Properties
  • 1. Electrical Conductivity
  • 2. Thermoelectric Properties
  • 3. Galvanomagnetic Properties
  • 4. Magnetic Properties
  • 5. Thermal Emission Properties
  • 6. Width of Forbidden Band
  • 7. Dielectric Properties
  • V. Optical Properties
  • 1. Color ofOxides
  • 2. Emissivity
  • 3. Refractive Index
  • 4. Velocity of Sound in Oxides
  • 5. Molecular Data
  • I. General Data, Stoichiometry, and Crystal Chemical Properties
  • 1. Electronic Structure of Isolated Atoms
  • 2. Ionization Potentials of Atoms
  • 3. Geometric Constants of Atoms and Ions
  • 4. Composition of Oxides
  • 5. Regions of Homogeneity
  • 6. Crystal Structure
  • 7. Density
  • II. Thermal and Thermodynamic Properties
  • 1. Standard Heat of Formation
  • 2. Entropy
  • 3. Free Energy of Formation of Oxides
  • 4. Thermodynamic Potentials of Oxide Formation Reactions
  • 5. Melting and Boiling Points
  • 6. Heats of Fusion, Evaporation, and Sublimation
  • 7. Thermal Conductivity
  • 8. Linear Coefficient of Thermal Expansion
  • 9. Molar Heat Capacity
  • 10. Specific Heat Capacity
  • 11. Heat of Combustion
  • 12. Chemical Bond Energy (Heat of Dissociation)
  • 13. Heat of Decomposition
  • 14. Heat of Phase Change
  • 15. Temperature and Heat of Polymorphic Conversion
  • 16. Characteristic Temperature
  • 17. Crystal Lattice Energy
  • 18. Oxidation Rates
  • 6. Van der Waals Constants
  • 7. Critical Properties
  • VI. Nuclear Properties
  • 1. Nuclear Properties of Oxides
  • 2. Effect of Fast Neutron Radiation on Oxides
  • Chpater VII. Chemical and Catalytic Properties
  • 1. Chemical Properties of Oxides
  • 2. Catalytic Properties of Oxides
  • VIII. Refractory Properties
  • 1. Solid Phase Reactions of Oxides
  • 2. Wetting of Oxides by Liquid Metals
  • 3. Resistance to the Action of Molten Metals, Alloys, and Slags
  • IX. Applications of Oxides in Technology
  • X. Phase Diagrams of Element-Oxygen Binary Systems
  • References

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