Add to ORKGMelt convection, along with species diffusion and segregation on the solidification interface are the primary factors responsible for species redistribution during HgCdTe crystal growth from the melt. As no direct information about convection velocity is available, numerical modeling is a logical approach to estimate convection. Furthermore influence of microgravity level, double-diffusion and material properties should be taken into account. In the present study, HgCdTe is considered as a binary alloy with melting temperature available from a phase diagram. The numerical model of convection and solidification of binary alloy is based on the general equations of heat and mass transfer in two-dimensional region. Mathematical modeling of bina...
The pure diffusion process has been often used to study the crystal growth of a binary alloy in the ...
In eutectic growth, as the solid phases grow they reject atoms to the liquid. This results in a vari...
Most models of alloy solidification are severely limited by the assumption of constant density, thus...
A numerical model of HgCdTe solidification was implemented using finite the element code FIDAP. Mode...
A study of directional solidification of a weak binary alloy (specifically, Bi - 1 at% Sn) based on ...
In order to achieve homogeneous semiconductor crystals through melt stabi-lization during the crysta...
A pre-flight analysis of the directional solidification of BiSn with MEPHISTO-4 is presented. Simpli...
The purpose of this study was to improve the understanding of the transport phenomena which occurs i...
The solution of the one dimensional planar interface solidification problem is presented. Numerical ...
The MEPHISTO space experiments are collaborative United States and French investigations aimed at un...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
As a solid solution semiconductor having, a large separation between liquidus and solidus, mercury c...
The solidi®cation of a dilute alloy under Bridgman crystal growth conditions in a reduced-gravity en...
A model for directional solidification in dilute binary alloys is presented. The energy equation is ...
A three-dimensional transient numerical model is developed for simulation of double-diffusive convec...
The pure diffusion process has been often used to study the crystal growth of a binary alloy in the ...
In eutectic growth, as the solid phases grow they reject atoms to the liquid. This results in a vari...
Most models of alloy solidification are severely limited by the assumption of constant density, thus...
A numerical model of HgCdTe solidification was implemented using finite the element code FIDAP. Mode...
A study of directional solidification of a weak binary alloy (specifically, Bi - 1 at% Sn) based on ...
In order to achieve homogeneous semiconductor crystals through melt stabi-lization during the crysta...
A pre-flight analysis of the directional solidification of BiSn with MEPHISTO-4 is presented. Simpli...
The purpose of this study was to improve the understanding of the transport phenomena which occurs i...
The solution of the one dimensional planar interface solidification problem is presented. Numerical ...
The MEPHISTO space experiments are collaborative United States and French investigations aimed at un...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
As a solid solution semiconductor having, a large separation between liquidus and solidus, mercury c...
The solidi®cation of a dilute alloy under Bridgman crystal growth conditions in a reduced-gravity en...
A model for directional solidification in dilute binary alloys is presented. The energy equation is ...
A three-dimensional transient numerical model is developed for simulation of double-diffusive convec...
The pure diffusion process has been often used to study the crystal growth of a binary alloy in the ...
In eutectic growth, as the solid phases grow they reject atoms to the liquid. This results in a vari...
Most models of alloy solidification are severely limited by the assumption of constant density, thus...