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Hydrogen Trapping During Cathodic Charging of Iron*

  • Jai-Young Lee and Jong-Lam Lee
Published/Copyright: May 30, 1985
Zeitschrift für Physikalische Chemie
From the journal Zeitschrift für Physikalische Chemie Volume 146 Issue 2

Published Online: 1985-5-30
Published in Print: 1985-2-1

© R. Oldenbourg Verlag, München

Articles in the same Issue

  1. The Crystal Structure of High-Pressure Hydrides
  2. New Phase Transitions in Hydrides of the I-A, III-A, and IV-A Group Metals*
  3. Interatomic Potentials and Lattice Distortions in PdD0.8*
  4. Some More Recently Investigated Facets of Structural Changes and Phase Relationships in the Palladium-Hydrogen System*
  5. Hydrogen Overpotentials on Metal Surfaces
  6. Hydrogen Diffusion into Palladium Alloy Tubes
  7. Surface Hydrides on Palladium
  8. The Solubility of Hydrogen in Lithium-Sodium Systems*
  9. A Microcomputer-Controlled Apparatus for Measuring Thermal Absorption or Desorption of Hydrogen from Milligram Samples*
  10. On Equilibrium in the Zirconium-Hydrogen System*
  11. Structural, Thermal and Electrical Properties Indicating Covalent Bonding in Mg2NiH4*
  12. Computer Experiments on the Thermodynamic Properties of the Primary Solid Solutions of the Group VB Metal-Hydrogen Systems*
  13. Statistical Mechanics of Dilute Palladium-Boron-Hydrogen Solutions*
  14. Statistical Thermodynamic Aspects of Hydrogen in Metals*
  15. An Analysis of Diffusion Models of Hydrogen in Solid Solution Alloys of fcc and bcc Lattice Structures
  16. A Model of Hydrogen Diffusion in some Ordered Alloys
  17. The Influence of Experimental Conditions upon the Measurements of Hydrogen Diffusion in Palladium by Electrochemical Permeation Methods*
  18. Diffusivity and Solubility of Hydrogen in Polymeric Membranes Measured by Non-Equilibrium Stripping Potentiostatic Methods*
  19. Transport Coefficients and Energetics of Hydrogen in Palladium
  20. Hydrogen Trapping During Cathodic Charging of Iron*
  21. Evaluation of Hydrogen Diffusivity in Mild Steel from Electropermeation Transients: Galvanostatic Mode of Charging*
  22. Hydrogen Trapping Phenomena in Metals with bcc and fcc Crystal Structures by Thermal Analysis Technique*
https://doi.org/10.1524/zpch.1985.146.2.233

Articles in the same Issue

  1. The Crystal Structure of High-Pressure Hydrides
  2. New Phase Transitions in Hydrides of the I-A, III-A, and IV-A Group Metals*
  3. Interatomic Potentials and Lattice Distortions in PdD0.8*
  4. Some More Recently Investigated Facets of Structural Changes and Phase Relationships in the Palladium-Hydrogen System*
  5. Hydrogen Overpotentials on Metal Surfaces
  6. Hydrogen Diffusion into Palladium Alloy Tubes
  7. Surface Hydrides on Palladium
  8. The Solubility of Hydrogen in Lithium-Sodium Systems*
  9. A Microcomputer-Controlled Apparatus for Measuring Thermal Absorption or Desorption of Hydrogen from Milligram Samples*
  10. On Equilibrium in the Zirconium-Hydrogen System*
  11. Structural, Thermal and Electrical Properties Indicating Covalent Bonding in Mg2NiH4*
  12. Computer Experiments on the Thermodynamic Properties of the Primary Solid Solutions of the Group VB Metal-Hydrogen Systems*
  13. Statistical Mechanics of Dilute Palladium-Boron-Hydrogen Solutions*
  14. Statistical Thermodynamic Aspects of Hydrogen in Metals*
  15. An Analysis of Diffusion Models of Hydrogen in Solid Solution Alloys of fcc and bcc Lattice Structures
  16. A Model of Hydrogen Diffusion in some Ordered Alloys
  17. The Influence of Experimental Conditions upon the Measurements of Hydrogen Diffusion in Palladium by Electrochemical Permeation Methods*
  18. Diffusivity and Solubility of Hydrogen in Polymeric Membranes Measured by Non-Equilibrium Stripping Potentiostatic Methods*
  19. Transport Coefficients and Energetics of Hydrogen in Palladium
  20. Hydrogen Trapping During Cathodic Charging of Iron*
  21. Evaluation of Hydrogen Diffusivity in Mild Steel from Electropermeation Transients: Galvanostatic Mode of Charging*
  22. Hydrogen Trapping Phenomena in Metals with bcc and fcc Crystal Structures by Thermal Analysis Technique*
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