A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic growth kinetics during solidification has been developed, based on a modified Cellular Automaton (mCA) for microscopic modeling of nucleation, growth of crystals and solute diffusion. The mCA model numerically calculated solute redistribution both in the solid and liquid phases, the curvature of dendrite tips and the growth anisotropy. This modeling takes account of thermal, curvature and solute diffusion effects. Therefore, it can simulate microstructure formation both on the scale of the dendrite tip length. This model was then applied for simulating dendritic solidification of an Al-7%Si alloy. Both directional and equiaxed dendritic growth...
A three-dimensional (3-D) cellular automata (CA) model coupled with the finite-element (FE) method h...
A new two-dimensional modeling approach combining the cellular automaton(CA) and the lattice Boltzma...
In order to simulate microstructure evolution during a solidification process, the Kobayashi model w...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
A three-dimensional (3D) cellular automata (CA) model has been developed for simulation of dendrite ...
A two-dimensional model based on the Cellular Automaton (CA) technique for simulating free dendritic...
We compared a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model to s...
Using a phase field model, which fully couples the thermal and solute concentration field, we presen...
In this work, a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model we...
A Cellular Automaton (CA) model to track the solid-liquid interface movement combined with finite vo...
The paper presents the cellular automaton (CA) model for tracking the development of dendritic struc...
A cellular automaton (CA)-finite element (FE) model and a phase field (PF)-FE model were used to sim...
AbstractDue to the extensive applications in the automotive and aerospace industries of Al–7Si–Mg ca...
A phase-field model for dendritic growth under coupled thermo-solutal control model is presented. Co...
International audienceA new algorithm based upon a 2-dimensional Cellular Automaton (CA) technique i...
A three-dimensional (3-D) cellular automata (CA) model coupled with the finite-element (FE) method h...
A new two-dimensional modeling approach combining the cellular automaton(CA) and the lattice Boltzma...
In order to simulate microstructure evolution during a solidification process, the Kobayashi model w...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
A three-dimensional (3D) cellular automata (CA) model has been developed for simulation of dendrite ...
A two-dimensional model based on the Cellular Automaton (CA) technique for simulating free dendritic...
We compared a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model to s...
Using a phase field model, which fully couples the thermal and solute concentration field, we presen...
In this work, a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model we...
A Cellular Automaton (CA) model to track the solid-liquid interface movement combined with finite vo...
The paper presents the cellular automaton (CA) model for tracking the development of dendritic struc...
A cellular automaton (CA)-finite element (FE) model and a phase field (PF)-FE model were used to sim...
AbstractDue to the extensive applications in the automotive and aerospace industries of Al–7Si–Mg ca...
A phase-field model for dendritic growth under coupled thermo-solutal control model is presented. Co...
International audienceA new algorithm based upon a 2-dimensional Cellular Automaton (CA) technique i...
A three-dimensional (3-D) cellular automata (CA) model coupled with the finite-element (FE) method h...
A new two-dimensional modeling approach combining the cellular automaton(CA) and the lattice Boltzma...
In order to simulate microstructure evolution during a solidification process, the Kobayashi model w...