Hydrogen in steel : effect of hydrogen on iron and steel during production, fabrication, and use /
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Oxford ; New York : Warszawa : Reading, Massachusetts :
Pergamon Press ; Wydawnictwa Naukowo-Techniczne ;
�1962.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Hydrogen in Steel: Effect of Hydrogen on Iron and Steel During Production, Fabrication, and Use; Copyright Page; Table of Contents; FOREWORD; ABBREVIATIONS; CHAPTER 1. METALS AND HYDROGEN; 1.1. Introduction; 1.2. Thermal Dissociation of Molecular Hydrogen; 1.3. The Recombination Reaction; 1.4. Interaction of Hydrogen with the Metal Surface; 1.5. Adsorption, Bulk Occlusion and Catalytic Activity; 1.6. Negative Catalytic Activity of Some Elements and Compounds; 1.7. ""Metallic"" Hydrogen; 1.8. Periodic System and Occlusion of Hydrogen; 1.9. Hydrides of C-class Metals
- 1.10. The Nature of the Interstitial Solution of Hydrogen in Metals1.11. Magnetic Properties of Palladium Charged with Hydrogen; the Theory of Mott and Jones; 1.12. Supersaturation Hydrogen; 1.13. The Structure of the Palladium Hydride; 1.14. Nickel Hydride; 1.15. Summary and Conclusions; BIBLIOGRAPHY; CHAPTER 2. THE SOLUBILITY OF HYDROGEN IN IRON AND FERROUS ALLOYS; 2.1. Introductory Remarks; 2.2. Units in which Hydrogen Content is Measured; 2.3. The Solubility of Hydrogen in Iron at 1 atm Pressure and at Different Temperatures; 2.4. The Dependence of the Solubility on Pressure
- 2.5. Energy Changes Accompanying the Process of Hydrogen Absorption by Iron2.6. The Solubility of Hydrogen Isotopes in Iron; 2.7. The Dependence of the Solubility of Hydrogen in Steel on the Composition of the Steel; 2.8. The Influence of the Crystallographic Structure; 2.9. Charging of Iron and Nickel with Hydrogen Evolved from Acids; 2.10. The Influence of Cold Work and Strain; 2.11. The Influence of Surface Condition; 2.12. Relationship Between the Hydrogen Content of Iron, Temperature and Pressure of Hydrogen Accumulated in Voids; 2.13. Conclusions; BIBLIOGRAPHY
- CHAPTER 3. THE DIFFUSION AND PERMEATION OF HYDROGEN THROUGH IRON AND STEEL3.1. Early Works on the Passage of Hydrogen Through Metals; 3.2. The Possible Mechanism of Hydrogen Flow Through Metals; 3.3. Fick's Law and its Applicability to the Flow of Hydrogen Through Metals; 3.4. The Effect of Thickness of the Metal Wall Upon the Hydrogen Flow; 3.5. The Effect of Pressure; 3.6. The Effect of Temperature; 3.7. Experimental Results on the Permeation Rate of Hydrogen Through Iron and Steel at Elevated Temperatures; 3.8. Experimental Results Obtained by Using the Unsteady State of Flow
- 3.9. Experimental Results on the Permeation Rate of Nascent Hydrogen3.10. Experimental Results Concerning the Permeation of Hydrogen Through Iron During a Sparking Discharge; 3.11. Effect of Concentration of the Diffusing Substance Upon the Diffusion Coefficient; 3.12. The Effect of Grain Size and of Crystallographic Factors; 3.13. Effect of Cold-work and Strain; 3.14. Effect of the Composition and Structure of Steel; 3.15. Effects of the State of Surface; 3.16. The Dependence of the Permeation Rate of Nascent and Electrolytically Evolved Hydrogen on the Electrolyte's Composition