论文信息 - Selection of a length scale in unconstrained dendritic growth with convection in the melt

Selection of a length scale in unconstrained dendritic growth with convection in the melt

For the first time the free growth of fully developed succinonitrile, SCN, dendrites is studied experimentally with carefully controlled, well defined, forced convection velocities, U∞, in the ultrapure melt up to 1 cm/s, which is about 40 times larger than the velocity due to natural (thermal) convection, UN, and is 300 times larger than the growth velocity of the dendrite, ν. Therefore thermal convection and advection have a negligible effect on our experimental data. The selection parameter, σ∗ = 2αd0⧸ν R2, increases by over 50% as the ratio, U∞⧸ν, of the forced convection velocity, U∞, to the growth velocity, ν, increases from 3 to 300. This result is opposite to the prediction of microscopic solvability theory for a pure material. Our result also is opposite to that reported for binary experiments which support solvability theory and indicate that σ∗decreases as U∞/ν increases up to values of about 19.

[1] William N. Gill,et al. THE EFFECT OF CONVECTION ON AXISYMMETRIC PARABOLIC DENDRITES , 1988 .

[2] Martin E. Glicksman,et al. Overview 12: Fundamentals of dendritic solidification—I. Steady-state tip growth , 1981 .

[3] P. Pelcé,et al. Effect of a forced flow on dendritic growth , 1989 .

[4] Perrin,et al. Influence of an external flow on dendritic crystal growth. , 1989, Physical review. A, General physics.

[5] R. Ananth,et al. Self-consistent theory of dendritic growth with convection , 1991 .

[6] R. Ananth,et al. Dendritic growth with thermal convection , 1988 .

[7] J. Langer. Instabilities and pattern formation in crystal growth , 1980 .

[8] Saville,et al. Growth of needle-shaped crystals in the presence of convection. , 1988, Physical review. A, General physics.

[9] Xu. Interfacial wave theory of solidification: Dendritic pattern formation and selection of growth velocity. , 1991, Physical review. A, Atomic, molecular, and optical physics.

[10] William N. Gill,et al. Dendritic growth of an elliptical paraboloid with forced convection in the melt , 1989, Journal of Fluid Mechanics.