Add to ORKGAn analysis is presented for the mass and vacancy fluxes within the reacting phases and at the interface for a diffusion-driven phase transformation between disordered binary solid solutions. As decided by the intrinsic diffusion coefficients and the initial and interface concentrations for each phase, vacancies must either be created or annihilated in the bulk phases but also at their interface. A general analysis is formulated for the growth or recession of a phase in terms of the Kirkendall reference frame, and this result is compared to the analysis based on the reference frame centered on the number of moles. Specific example calculations demonstrate the various possibilities for vacancy creation/annihilation and for the growth/recessi...
In a diffusion-controlled interaction, the Kirkendall plane, identified by inert particles placed at...
Abstract—The role of solute drag in the massive phase transformation is evaluated through the dissip...
The Phase field method has been used to study Diffusion Induced Grain boundary Migration (DIGM) in b...
An analysis is presented for the mass and vacancy fluxes within the reacting phases and at the inter...
An analysis is presented for the mass and vacancy fluxes within the reacting phases and at the inter...
The migration of ledges in a semicoherent a/ß interface is considered to participate in solid-state ...
The Kirkendall effect is well-known and documented for the diffusion in a single-phased substitution...
Many material phase transformations are controlled by mass transport induced by diffusion. To better...
Phase-field models are powerful tools to tackle free-boundary problems. For phase transformations in...
The Kirkendall effect stems from the difference between the exchange rates of the atomic species and...
The final set of equations defining the interdiffusion process in solid state is presented. The mode...
The dynamics of vacancies in a system with both production and annihilation mechanisms have been ana...
International audienceIn an alloy subject to vacancy-mediated diffusion, differences in intrinsic di...
In a diffusion-controlled interaction, the Kirkendall plane, identified by inert particles placed at...
Abstract—The role of solute drag in the massive phase transformation is evaluated through the dissip...
The Phase field method has been used to study Diffusion Induced Grain boundary Migration (DIGM) in b...
An analysis is presented for the mass and vacancy fluxes within the reacting phases and at the inter...
An analysis is presented for the mass and vacancy fluxes within the reacting phases and at the inter...
The migration of ledges in a semicoherent a/ß interface is considered to participate in solid-state ...
The Kirkendall effect is well-known and documented for the diffusion in a single-phased substitution...
Many material phase transformations are controlled by mass transport induced by diffusion. To better...
Phase-field models are powerful tools to tackle free-boundary problems. For phase transformations in...
The Kirkendall effect stems from the difference between the exchange rates of the atomic species and...
The final set of equations defining the interdiffusion process in solid state is presented. The mode...
The dynamics of vacancies in a system with both production and annihilation mechanisms have been ana...
International audienceIn an alloy subject to vacancy-mediated diffusion, differences in intrinsic di...
In a diffusion-controlled interaction, the Kirkendall plane, identified by inert particles placed at...
Abstract—The role of solute drag in the massive phase transformation is evaluated through the dissip...
The Phase field method has been used to study Diffusion Induced Grain boundary Migration (DIGM) in b...