To increase the understanding of the role of carbide precipitates on the hydrogen embrittlement of martensitic steels, we have performed a density functional theory study on the solution energies and energy barriers for hydrogen diffusion in orthorhombic M7C3 (M = Cr, Mn, Fe). Hydrogen can easily diffuse into the lattice and cause internal stresses or bond weakening, which may promote reduced ductility. Solution energies of hydrogen at different lattice positions have systematically been explored, and the lowest values are -0.28, 0.00, and 0.03 eV/H-atom for Cr7C3, Mn7C3, and Fe7C3, respectively. Energy barriers for the diffusion of hydrogen atoms have been probed with the nudged elastic band method, which shows comparably low barriers for ...
In this study, we calculated the energetics of hydrogen atoms adsorbing on and diffusing into the fi...
Trabajo presentado en el International RILEM Conference on Advances in Construction Materials Throug...
It is well known that the presence of hydrogen decreases the mechanical properties of ferritic steel...
To increase the understanding of the role of carbide precipitates on the hydrogen embrittlement of m...
To increase the understanding of the role of carbide precipitates on the hydrogen embrittlement of m...
The presence of interstitial hydrogen in steel produces embrittlement, which poses a severe risk to ...
This study is concerned with the early stages of hydrogen embrittlement on an atomistic scale. We em...
The effects of Mn, Cr, and Ni addition on the hydrogen diffusion behavior in BCC, FCC, and HCP Fe wa...
Resumen del trabajo presentado en National Physical Laboratory: Hydrogen embrittlement: Multi-scale ...
Trabajo presentado en el 8th International Conference on Fracture Mechanics of Concrete and Concrete...
A correct description of hydrogen diffusion and trapping is the prerequisite for an understanding of...
The presence of hydrogen (H) in metals has a deleterious effect on their mechanical properties. This...
Hydrogen diffusion kinetics, which is influenced by the hydrogen trapping and de-trapping phenomena ...
Formation energy of an isolated hydrogen atom in Cr23C6 has been investigated using atomisitic calcu...
Resumen del trabajo presentado en el XIII International Congress on the Chemistry of Cement, celebra...
In this study, we calculated the energetics of hydrogen atoms adsorbing on and diffusing into the fi...
Trabajo presentado en el International RILEM Conference on Advances in Construction Materials Throug...
It is well known that the presence of hydrogen decreases the mechanical properties of ferritic steel...
To increase the understanding of the role of carbide precipitates on the hydrogen embrittlement of m...
To increase the understanding of the role of carbide precipitates on the hydrogen embrittlement of m...
The presence of interstitial hydrogen in steel produces embrittlement, which poses a severe risk to ...
This study is concerned with the early stages of hydrogen embrittlement on an atomistic scale. We em...
The effects of Mn, Cr, and Ni addition on the hydrogen diffusion behavior in BCC, FCC, and HCP Fe wa...
Resumen del trabajo presentado en National Physical Laboratory: Hydrogen embrittlement: Multi-scale ...
Trabajo presentado en el 8th International Conference on Fracture Mechanics of Concrete and Concrete...
A correct description of hydrogen diffusion and trapping is the prerequisite for an understanding of...
The presence of hydrogen (H) in metals has a deleterious effect on their mechanical properties. This...
Hydrogen diffusion kinetics, which is influenced by the hydrogen trapping and de-trapping phenomena ...
Formation energy of an isolated hydrogen atom in Cr23C6 has been investigated using atomisitic calcu...
Resumen del trabajo presentado en el XIII International Congress on the Chemistry of Cement, celebra...
In this study, we calculated the energetics of hydrogen atoms adsorbing on and diffusing into the fi...
Trabajo presentado en el International RILEM Conference on Advances in Construction Materials Throug...
It is well known that the presence of hydrogen decreases the mechanical properties of ferritic steel...