Add to ORKGA phase field model was developed and employed to simulate the interdiffusion microstructure evolution in Ni-Cr-Al diffusion couples. Utilizing the thermodynamic and kinetic data for the Ni-Cr-Al system, simulations of multi-phase (fcc-γ vs. γ+B2-β and γ+β vs. γ+β) diffusion couples were performed. The model predicted the dissolution of β phase in γ vs. γ+β diffusion couples, where the dissolution rate was dependent on the alloy compositions. No dissolution was predicted for γ+β vs. γ+β couples. The simulations results were found to be in good agreement with reported experimental observations in literature. Nomenclature ci = composition of component i in mole fraction η = structure order parameter F = Cahn-Hilliard free energy functional fc...
Ternary interdiffusion coefficients were measured in the Ni solid solution γ (fcc) phase of the Ni-C...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 °C using solid-solid diffusion cou...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 degrees C using solid-solid diffus...
A phase field model was developed and employed to simulate the interdiffusion microstructure evoluti...
Evolution of interdiffusion microstructures was examined in ternary Ni-Cr-Al solid-to-solid diffusio...
Evolution of interdiffusion microstructures was examined for binary Ni-Al solid-to-solid diffusion c...
Evolution of interdiffusion microstructures was examined for binary Ni-Al solid-to-solid diffusion c...
A two-dimensional phase field model was employed to examine the evolution of interdiffusion microstr...
A two-dimensional phase field model was employed to examine the evolution of interdiffusion microstr...
Diffusion induced microstructure changes may either enhance or reduce the material performance, it i...
The diffuse-interface phase-field model is a powerful method to simulate and predict mesoscale micro...
Interdiffusion induced microstructure evolution in binary multi-phase alloys was investigated using ...
Interdiffusion in Ni-rich, Ni-Cr-Al diffusion couples was studied after annealing at 1100 and 1200 °...
A model for diffusion is applied to the nickel-chromium-aluminum (Ni-Cr-Al) system to optimize the m...
A simplified model has been developed to predict β recession and diffusion paths in ternary γ/γ + β ...
Ternary interdiffusion coefficients were measured in the Ni solid solution γ (fcc) phase of the Ni-C...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 °C using solid-solid diffusion cou...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 degrees C using solid-solid diffus...
A phase field model was developed and employed to simulate the interdiffusion microstructure evoluti...
Evolution of interdiffusion microstructures was examined in ternary Ni-Cr-Al solid-to-solid diffusio...
Evolution of interdiffusion microstructures was examined for binary Ni-Al solid-to-solid diffusion c...
Evolution of interdiffusion microstructures was examined for binary Ni-Al solid-to-solid diffusion c...
A two-dimensional phase field model was employed to examine the evolution of interdiffusion microstr...
A two-dimensional phase field model was employed to examine the evolution of interdiffusion microstr...
Diffusion induced microstructure changes may either enhance or reduce the material performance, it i...
The diffuse-interface phase-field model is a powerful method to simulate and predict mesoscale micro...
Interdiffusion induced microstructure evolution in binary multi-phase alloys was investigated using ...
Interdiffusion in Ni-rich, Ni-Cr-Al diffusion couples was studied after annealing at 1100 and 1200 °...
A model for diffusion is applied to the nickel-chromium-aluminum (Ni-Cr-Al) system to optimize the m...
A simplified model has been developed to predict β recession and diffusion paths in ternary γ/γ + β ...
Ternary interdiffusion coefficients were measured in the Ni solid solution γ (fcc) phase of the Ni-C...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 °C using solid-solid diffusion cou...
Diffusion studies were carried out in the Fe-Ni-Al system at 1000 degrees C using solid-solid diffus...