AbstractWe propose a scheme for simulation of the solute-driven dendritic solidification which accounts for the flows of liquid and motion of growing dendrites. The scheme is based on the multiphase-field method for calculating the solidification and the lattice Boltzmann method to simulate the fluid flows. Motion and rotation of solid grains is possible
Fluid flow has a significant impact on the microstructure evolution of alloys during solidification....
We study the growth of a single dendrite from a small initial seed in an undercooled melt in the pre...
This paper presents a very fast numerical approach to simulate microstructures resulting from melt p...
AbstractWe propose a scheme for simulation of the solute-driven dendritic solidification which accou...
A two-dimensional model is developed to simulate dendrite growth and movement in a gravity environme...
To simulate three dimensional (3D) solute-driven dendrite growth, a new numerical technique is intro...
The presence of bulk and interdendritic flow during solidification can alter the microstructure, pot...
At present, the calculation of three-dimensional (3D) dendrite motion using the cellular automata (C...
To study the complexities in multi-dendrite growth during solidification, a fully coupled thermal-so...
Bulk and interdendritic flow during solidification alters the microstructure development, potentiall...
Dendrite growth and morphology evolution during solidification have been studied using a phase field...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
A continuous method is presented to deal with the discontinuous physical properties on both sides of...
A front tracking method is presented for simulations of dendritic solidification of pure substances ...
A numerical model to study the growth of dendrites in a pure metal solidification process with an im...
Fluid flow has a significant impact on the microstructure evolution of alloys during solidification....
We study the growth of a single dendrite from a small initial seed in an undercooled melt in the pre...
This paper presents a very fast numerical approach to simulate microstructures resulting from melt p...
AbstractWe propose a scheme for simulation of the solute-driven dendritic solidification which accou...
A two-dimensional model is developed to simulate dendrite growth and movement in a gravity environme...
To simulate three dimensional (3D) solute-driven dendrite growth, a new numerical technique is intro...
The presence of bulk and interdendritic flow during solidification can alter the microstructure, pot...
At present, the calculation of three-dimensional (3D) dendrite motion using the cellular automata (C...
To study the complexities in multi-dendrite growth during solidification, a fully coupled thermal-so...
Bulk and interdendritic flow during solidification alters the microstructure development, potentiall...
Dendrite growth and morphology evolution during solidification have been studied using a phase field...
A comprehensive probabilistic model for simulating dendrite morphology and investigating dendritic g...
A continuous method is presented to deal with the discontinuous physical properties on both sides of...
A front tracking method is presented for simulations of dendritic solidification of pure substances ...
A numerical model to study the growth of dendrites in a pure metal solidification process with an im...
Fluid flow has a significant impact on the microstructure evolution of alloys during solidification....
We study the growth of a single dendrite from a small initial seed in an undercooled melt in the pre...
This paper presents a very fast numerical approach to simulate microstructures resulting from melt p...
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