Proceedings ArticleDOI
Solutal convection during directional solidification
G. B. Mcfadden,S. R. Coriell +1 more
- pp 1572-1578
TLDR
In this article, numerical calculations of the solute and fluid flow fields in the melt have been carried out using finite differences in a two-dimensional, time-dependent model that assumes a planar crystal-melt interface and allows timedependent gravitational accelerations.Abstract:
During directional solidification of a binary alloy at constant velocity, buoyancy-driven fluid flow may occur due to the solute gradients generated by the solidification process. Numerical calculations of the solute and fluid flow fields in the melt have been carried out using finite differences in a two-dimensional, time-dependent model that assumes a planar crystal-melt interface and allows time-dependent gravitational accelerations. The container walls are rigid and perfectly insulating for solute. For constant vertical gravitational accelerations, as the solutal Rayleigh number is varied, multiple steady states and time-dependent states may occur. The bifurcation from the quiescent state may be subcritical or transcritical, depending on the aspect ratio of the container. Calculations have also been performed for a gravitational acceleration that is assumed to be uniform in magnitude with its direction rotating uniformly. Numerical results have been obtained for a Schmidt number of 10 and a gravitational acceleration of 0.0001 G. The maximum variation in the solute concentration at the crystal-melt interface is calculated for various values of the rotation rate of the gravitational acceleration.read more
Citations
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An examination of anticipated g-jitter on Space Station and its effects on materials processes
TL;DR: In this article, the effects of g-jitter, the residual acceleration aboard spacecraft, on selected classes of materials processes are analyzed, but the topic is covered with a sufficient level of generality as to apply to other processes and to other vehicles as well.
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Assessment of Thermovibrational Theory: Application to G-Jitter on the Space Station
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TL;DR: In this paper, the effects of g-jitter (oscillatory residual acceleration disturbances) on fluid dynamics experiments onboard the International Space Station is discussed. And the most important terms in the momentum and in the energy equation are identified by an a posteriori order of magnitude analysis by means of the numerical solution of the unsteady full Navier-Stokes equations.
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Pattern study in the 2-D solutal convection above a Bridgman-type solidification front
TL;DR: In this paper, the authors numerically investigate the 2D convective flow developing in the liquid phase above an alloy growing in the upward Bridgman configuration of directional solidification and describe the various cycles of hysteresis that connect the different branches of stable steady solutions.
Journal ArticleDOI
Convection effects on radial segregation and crystal–melt interface in vertical Bridgman growth
TL;DR: In this paper, the influence of convection caused by horizontal heat transfer through the sides of a vertical Bridgman apparatus was analyzed and asymptotic expressions for both the interfacial slope and radial segregation at the crystal-melt interface were obtained in closed form in the limit of large thermal Rayleigh number.
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Three-dimensional bifurcations of a two-phase Rayleigh-Benard problem in a cylinder
Chung-Wen Lan,Chen-Hao Wang +1 more
TL;DR: In this paper, the 3D bifurcation diagram of a partially melted or solidified material in a cylinder heated from below is studied numerically, both for the onset of convection and its convection mode.
References
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Convection and segregation in directional solidification of dilute and non-dilute binary alloys: Effects of ampoule and furnace design
TL;DR: In this paper, a Petrov-Galerkin/finite element method is used to analyze the effect of furnace configuration and ampoule design on the temperature field, the convection in the melt, the shape of the melt-solid interface, and the segregation of solute in the crystal, in the directional solidification of several dilute and nondilute binary semiconductor alloys.