Add to ORKGCommon diffusion trapping models for modeling hydrogen transport in metals are limited to traps with single de-trapping energies and a saturation occupancy of one. While they are successful in predicting typical mono isotopic ion implantation and thermal degassing experiments, they fail at describing recent experiments on isotope exchange at low temperatures. This paper presents a new modified diffusion trapping model with fill level dependent de-trapping energies that can also explain these new isotope exchange experiments. DFT calculations predict that even mono vacancies can store between 6 and 12 H atoms with de-trapping energies that depend on the fill level of the mono vacancy. The new fill level dependent diffusion trapping model all...
From international conference on hydrogen embrittlement effect on metal properties selection and des...
The applicability of the "two-energy-level" trap model for hydrogen diffusion proposed by one of the...
A reaction–diffusion type modelling framework is presented to analyse both electro-permeation (EP) a...
A model is given for the effective diffusion of interstitial solutes in the presence of traps. It go...
International audienceDensity functional theory (DFT) studies show that in tungsten a mono vacancy c...
International audienceThe interaction of hydrogen with tungsten is investigated by means of the Dens...
International audienceCode development to solve numerically the model equations of diffusion and tra...
The expression of apparent diffusivity of hydrogen in a generalized trap model of "two energy level"...
Solute hydrogen can cause many damaging processes in the lattices of metals, such as deformation of ...
Tritium accumulation in nuclear fusion reactor materials is a major concern for practical and safe f...
AbstractWe calculate the rate coefficient as a function of temperature for lattice diffusion of hydr...
A reaction-diffusion model with surface occupation dependent desorption [D. Matveev et al., Nucl. In...
The degree of embrittlement of metallic alloys is sensitive to the concentration of absorbed hydroge...
From international conference on hydrogen embrittlement effect on metal properties selection and des...
The applicability of the "two-energy-level" trap model for hydrogen diffusion proposed by one of the...
A reaction–diffusion type modelling framework is presented to analyse both electro-permeation (EP) a...
A model is given for the effective diffusion of interstitial solutes in the presence of traps. It go...
International audienceDensity functional theory (DFT) studies show that in tungsten a mono vacancy c...
International audienceThe interaction of hydrogen with tungsten is investigated by means of the Dens...
International audienceCode development to solve numerically the model equations of diffusion and tra...
The expression of apparent diffusivity of hydrogen in a generalized trap model of "two energy level"...
Solute hydrogen can cause many damaging processes in the lattices of metals, such as deformation of ...
Tritium accumulation in nuclear fusion reactor materials is a major concern for practical and safe f...
AbstractWe calculate the rate coefficient as a function of temperature for lattice diffusion of hydr...
A reaction-diffusion model with surface occupation dependent desorption [D. Matveev et al., Nucl. In...
The degree of embrittlement of metallic alloys is sensitive to the concentration of absorbed hydroge...
From international conference on hydrogen embrittlement effect on metal properties selection and des...
The applicability of the "two-energy-level" trap model for hydrogen diffusion proposed by one of the...
A reaction–diffusion type modelling framework is presented to analyse both electro-permeation (EP) a...