Add to ORKGPhase-field model was employed to quantitatively study the effect of convection on pattern selection and growth rate of 2D and 3D dendrite tip, as well as the effect of the different convection velocity on the dendritic growth. The calculated results show that crystal is asymmetric in the priority direction of growth under flow. The dentritic growth is promoted in the upstream region and suppressed in the downstream region. Convection can cause deviation in the dendrite growth direction and the preferred direction of the columnar crystals. It has been found that both primary dendrite stem and secondary dendrite arm deflect significantly towards upstream direction, secondary dendrite arm in upstream direction is more developed than the prima...
A phase-field model for dendritic growth under coupled thermo-solutal control model is presented. Co...
A series of mathematical models and codes are developed to investigate the dendritic growth of Fe-0....
An anisotropic phase-field model is used to simulate numerically dendritic solidification for a pure...
Alloy dendrite growth during solidification with coupled thermal-solute-convection fields has been s...
Dendrite growth and morphology evolution during solidification have been studied using a phase field...
A two-dimensional (2D) quantitative phase-field model solved by adaptive finite element method is em...
International audienceNumerical simulation of solidification and crystal growth has attracted indust...
The growth of hexagonal columnar dendrite during directional solidification with respect to the mult...
An open-source fluid flow and phase-field coupled solidification model has been developed in OpenFOA...
Numerical simulation of solidification and crystal growth has attracted industrial attention as a po...
Dendritic coarsening in Al-2mol%Si alloy during isothermal solidification at 880K was investigated b...
Phase field method was used to simulate the effect of grains orientation angle θ11 and azimuth θA o...
To study the complexities in multi-dendrite growth during solidification, a fully coupled thermal-so...
The growth of a free dendrite into a supercooled liquid is simulated through a modified version of t...
We use a phase-field model of dendritic growth in a pure undercooled melt to examine the effect of t...
A phase-field model for dendritic growth under coupled thermo-solutal control model is presented. Co...
A series of mathematical models and codes are developed to investigate the dendritic growth of Fe-0....
An anisotropic phase-field model is used to simulate numerically dendritic solidification for a pure...
Alloy dendrite growth during solidification with coupled thermal-solute-convection fields has been s...
Dendrite growth and morphology evolution during solidification have been studied using a phase field...
A two-dimensional (2D) quantitative phase-field model solved by adaptive finite element method is em...
International audienceNumerical simulation of solidification and crystal growth has attracted indust...
The growth of hexagonal columnar dendrite during directional solidification with respect to the mult...
An open-source fluid flow and phase-field coupled solidification model has been developed in OpenFOA...
Numerical simulation of solidification and crystal growth has attracted industrial attention as a po...
Dendritic coarsening in Al-2mol%Si alloy during isothermal solidification at 880K was investigated b...
Phase field method was used to simulate the effect of grains orientation angle θ11 and azimuth θA o...
To study the complexities in multi-dendrite growth during solidification, a fully coupled thermal-so...
The growth of a free dendrite into a supercooled liquid is simulated through a modified version of t...
We use a phase-field model of dendritic growth in a pure undercooled melt to examine the effect of t...
A phase-field model for dendritic growth under coupled thermo-solutal control model is presented. Co...
A series of mathematical models and codes are developed to investigate the dendritic growth of Fe-0....
An anisotropic phase-field model is used to simulate numerically dendritic solidification for a pure...