Transmission electron microscopy observations and micromechanical/continuum models for the effect of hydrogen on the mechanical behaviour of metals

Physics

• Dislocation 100%
• Hydrogen 46%
• Deformation 13%
• Stability 6%
• Metal 6%
• Speed 6%
• Stress Distribution 6%
• Position (Location) 6%
• Region 6%
• Mobility 6%
• Plastic Properties 6%
• Shears 6%
• Transmission Electron Microscopy 6%
• Stacking Fault Energy 6%
• Elastoplasticity 6%
• Hydrogen Embrittlement 6%

Engineering

• Solute 20%
• Solid Mechanics 20%
• Deformation 13%
• Mechanisms 6%
• Stability 6%
• Analytical Result 6%
• Demonstrates 6%
• Transmissions 6%
• Microscale 6%
• Localisation 6%
• Macroscale 6%
• Continuum Model 6%
• Hydrogen Complex 6%
• Stacking Fault Energy 6%
• Interaction Energy 6%
• Elastic Interaction 6%
• Hydrogen Embrittlement 6%

Material Science

• Material 13%
• Cell 6%
• Protective Atmosphere 6%
• Mechanical Property 6%
• Theoretical Modeling 6%
• Elastoplasticity 6%
• Viscoplasticity 6%
• Hydrogen Embrittlement 6%