A cellular automata (CA) model has been developed for solidification simulation considering the kinetic undercooling at the interface. The state-of-the-art model incorporates a decentered growth algorithm to suppress the grid anisotropy and a generalized height function method to calculate the curvature accurately. To develop a CA model which is independent of the mesh size, a new diffusion term is proposed to handle the diffusion between the interface cells and liquid cells. The developed CA model is employed to simulate the single-dendritic solidification of an Al–3Cu (wt pct) alloy. The simulated tip velocities agree with the prediction of the Kurz–Giovanola–Trivedi (KGT) model. Further studies show that the developed CA model converges ...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
International audienceDevelopment of dendritic grain structure and mesa-segregation leading to local...
A two-dimensional model based on the Cellular Automaton (CA) technique for simulating free dendritic...
A two-dimensional model for the simulation of solidification microstructure in multi-component alloy...
The paper presents the cellular automaton (CA) model for tracking the development of dendritic struc...
A three-dimensional (3D) cellular automata (CA) model has been developed for simulation of dendrite ...
A new coupled model in the binary alloy solidification has been developed. The model is based on the...
We compared a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model to s...
A model based on the cellular automaton (CA) technique for the simulation of solidification microstr...
International audienceA new algorithm based upon a 2-dimensional Cellular Automaton (CA) technique i...
A Cellular Automaton (CA) model to track the solid-liquid interface movement combined with finite vo...
International audienceA two-dimensional (2D) cellular automaton (CA)-finite element (FE) model devel...
In this work, a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model we...
A three-dimensional (3-D) cellular automata (CA) model coupled with the finite-element (FE) method h...
A cellular automaton (CA) model to predict the formation of grain macrostructure during solidificati...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
International audienceDevelopment of dendritic grain structure and mesa-segregation leading to local...
A two-dimensional model based on the Cellular Automaton (CA) technique for simulating free dendritic...
A two-dimensional model for the simulation of solidification microstructure in multi-component alloy...
The paper presents the cellular automaton (CA) model for tracking the development of dendritic struc...
A three-dimensional (3D) cellular automata (CA) model has been developed for simulation of dendrite ...
A new coupled model in the binary alloy solidification has been developed. The model is based on the...
We compared a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model to s...
A model based on the cellular automaton (CA) technique for the simulation of solidification microstr...
International audienceA new algorithm based upon a 2-dimensional Cellular Automaton (CA) technique i...
A Cellular Automaton (CA) model to track the solid-liquid interface movement combined with finite vo...
International audienceA two-dimensional (2D) cellular automaton (CA)-finite element (FE) model devel...
In this work, a cellular automaton (CA)-finite element (FE) model and a phase-field (PF)-FE model we...
A three-dimensional (3-D) cellular automata (CA) model coupled with the finite-element (FE) method h...
A cellular automaton (CA) model to predict the formation of grain macrostructure during solidificati...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
International audienceDevelopment of dendritic grain structure and mesa-segregation leading to local...
A two-dimensional model based on the Cellular Automaton (CA) technique for simulating free dendritic...