Add to ORKGSelection of steady needle crystals in the full nonlocal symmetric model of dendritic growth is considered. The diffusion equation and associated kinematic and thermodynamic boundary conditions are recast into a nonlinear integral equation which is solved numerically. For the range of Peclet numbers and capillarity lengths considered it is found that a smooth solution exists only if anisotropy is included in the capillarity term of the Gibbs-Thomson condition. The behavior of the selected velocity and tip radius as a function of undercooling is also examined
Motivated by an important application of dendritic crystals in the form of an elliptical paraboloid,...
The present thesis is concerned with the effect of external fluid flow on steady axisymmetric dendrt...
The free growth of a dendritic crystal having the shape of an elliptical paraboloid is stud-ied theo...
Dendritic patterns frequently arise when a crystal grows into its own undercooled melt. Latent heat ...
We investigate needle crystal solutions in the 2-D one-sided model of dendritic growth. We find that...
A stationary growth of the dendritic tip having the tip shape of an elliptical paraboloid in a binar...
The growth of a free dendrite having a non-axisymmetric morphology with arbitrary symmetry in a pure...
International audienceStable growth of a crystal with dendritic morphology with n-fold symmetry is m...
We show that the results on velocity selection for needle-crystals in the symmetric model of dendrit...
We study the selection of the shape and growth velocity of three dimensional dendritic crystals in c...
A free dendrite growth during solidification into external forced flow is analyzed using a sharp int...
We study two representative problems related to the dynamics of pattern formation in non-linear, dis...
We present the results of a careful numerical analysis of the stability problem for stationary needl...
We present a phase-field description of dendritic growth in a channel. We observe that both the anis...
We extend the analytical method developed in a recent paper to investigate the existence of axisymme...
Motivated by an important application of dendritic crystals in the form of an elliptical paraboloid,...
The present thesis is concerned with the effect of external fluid flow on steady axisymmetric dendrt...
The free growth of a dendritic crystal having the shape of an elliptical paraboloid is stud-ied theo...
Dendritic patterns frequently arise when a crystal grows into its own undercooled melt. Latent heat ...
We investigate needle crystal solutions in the 2-D one-sided model of dendritic growth. We find that...
A stationary growth of the dendritic tip having the tip shape of an elliptical paraboloid in a binar...
The growth of a free dendrite having a non-axisymmetric morphology with arbitrary symmetry in a pure...
International audienceStable growth of a crystal with dendritic morphology with n-fold symmetry is m...
We show that the results on velocity selection for needle-crystals in the symmetric model of dendrit...
We study the selection of the shape and growth velocity of three dimensional dendritic crystals in c...
A free dendrite growth during solidification into external forced flow is analyzed using a sharp int...
We study two representative problems related to the dynamics of pattern formation in non-linear, dis...
We present the results of a careful numerical analysis of the stability problem for stationary needl...
We present a phase-field description of dendritic growth in a channel. We observe that both the anis...
We extend the analytical method developed in a recent paper to investigate the existence of axisymme...
Motivated by an important application of dendritic crystals in the form of an elliptical paraboloid,...
The present thesis is concerned with the effect of external fluid flow on steady axisymmetric dendrt...
The free growth of a dendritic crystal having the shape of an elliptical paraboloid is stud-ied theo...