The mathematical model for heat transfer during the Bridgeman crystal growth, using the finite element method and the obtained result аre presented. Some modifications to the method were introduced in order to incorporate the data obtained experimentally. Solving the model enabled comparison of the experimental and numerical data and to obtain sufficient accuracy. The model was used to calculate the temperature gradient in the sample and the calculated gradient was in accordance with the observed crystal growth regime
University of Minnesota Ph.D. dissertation. December 2007. Advisors: Jeffrey J. Derby, Prodromos Dao...
Simulation of industrial crystal growth by the vertical Bridgman method / K. G. Siebert ... - In: Ma...
The results of a modelling of big size single crystal ZnGeP2 growth dynamics in the multi-zone therm...
The mathematical model for heat transfer during the Bridgeman crystal growth, using the finite eleme...
International audienceA numerical optimization method of the vertical Bridgman growth configuration ...
A coordinated theoretical and experimental study of the temperature distributions inside a customize...
A unified computational model has been developed for the Bridgman growth processes of β-NiAl and CdT...
Numerical analysis has been carried out to determine the deviation of the growth rate from the ampou...
Te is simulated. Moving boundary conditions for temperatures are taken into account, which makes it...
The heat transfer and liquid phase convection during GaInSb crystal growth via the traveling heater ...
In a vertical Bridgman crystal growth system, modeling of the transport processes is needed at three...
The purpose of this study was to improve the understanding of the transport phenomena which occurs i...
Bridgman-type crystal growth techniques are attractive methods for producing homogeneous, high-quali...
The solidification of the singular CdZnTe in axisymetric Vertical Bridgman (VB) cavity is investigat...
In this paper a numerical model will be adopted to analyze the heat transfer process during rapid so...
University of Minnesota Ph.D. dissertation. December 2007. Advisors: Jeffrey J. Derby, Prodromos Dao...
Simulation of industrial crystal growth by the vertical Bridgman method / K. G. Siebert ... - In: Ma...
The results of a modelling of big size single crystal ZnGeP2 growth dynamics in the multi-zone therm...
The mathematical model for heat transfer during the Bridgeman crystal growth, using the finite eleme...
International audienceA numerical optimization method of the vertical Bridgman growth configuration ...
A coordinated theoretical and experimental study of the temperature distributions inside a customize...
A unified computational model has been developed for the Bridgman growth processes of β-NiAl and CdT...
Numerical analysis has been carried out to determine the deviation of the growth rate from the ampou...
Te is simulated. Moving boundary conditions for temperatures are taken into account, which makes it...
The heat transfer and liquid phase convection during GaInSb crystal growth via the traveling heater ...
In a vertical Bridgman crystal growth system, modeling of the transport processes is needed at three...
The purpose of this study was to improve the understanding of the transport phenomena which occurs i...
Bridgman-type crystal growth techniques are attractive methods for producing homogeneous, high-quali...
The solidification of the singular CdZnTe in axisymetric Vertical Bridgman (VB) cavity is investigat...
In this paper a numerical model will be adopted to analyze the heat transfer process during rapid so...
University of Minnesota Ph.D. dissertation. December 2007. Advisors: Jeffrey J. Derby, Prodromos Dao...
Simulation of industrial crystal growth by the vertical Bridgman method / K. G. Siebert ... - In: Ma...
The results of a modelling of big size single crystal ZnGeP2 growth dynamics in the multi-zone therm...
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