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Analysis of Hydrodynamic and Interfacial Instabilities During Cooperative Monotectic Growth  Cooperative monotectic growth  Sources of flow with a fluid-fluid.

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Presentation on theme: "Analysis of Hydrodynamic and Interfacial Instabilities During Cooperative Monotectic Growth  Cooperative monotectic growth  Sources of flow with a fluid-fluid."— Presentation transcript:

1 Analysis of Hydrodynamic and Interfacial Instabilities During Cooperative Monotectic Growth  Cooperative monotectic growth  Sources of flow with a fluid-fluid interface  Regular solution model of the Al-In miscibility gap  Modes of instability for a growing fluid-fluid interface  Compute the morphological stability of a fluid-fluid interface during directional growth G.B. McFadden, NIST S.R. Coriell, NIST K.F. Gurski, NIST B.T. Murray, SUNY Binghamton J.B. Andrews, U. Alabama, Birmingham NASA Physical Sciences Research Division

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3 Modeling Flow Effects During Monotectic Growth: Difficulty: Cooperative growth is a complex process with three phases in a complicated geometry. Typical theoretical approaches involve rough order-of-magnitude estimates or full-scale numerical calculations in 2-D or 3-D. Idea: Idealize to two phases (fluid-fluid) in a simplified geometry (planar interface) where flow effects can be assessed quantitatively by their effects on linear stability. Related Work: Directional solidification of liquid crystals; convective stability of liquid bi-layers.

4 Sources of convection with a liquid-liquid interface: Thermosolutal convection (Coriell et al.) Density-change convection Thermocapillary convection (Ratke et al.) Pressure-driven convection (Hunt et al.)

5 Al-In Phase Diagram C.A. Coughanowr, U. Florida (1988)

6 Equilibrium Thermodynamics

7 Sub-regular solution model of Al-In miscibility gap U. Kattner, NIST; C.A. Coughanowr, U. Florida (1988)

8 Do directional transformation of L 1 (  ) phase into L 2 (  ) phase   V

9 Modes of instability with a fluid-fluid interface: Double-Diffusive instability [Coriell et al. (1980)] Rayleigh-Taylor instability [Sharp (1984)] Marangoni instability [Davis (1987)] Morphological Instability [Mullins & Sekerka (1964)] Consider the flows driven by inhomogeneities generated by morphological instability at micron-sized length scales.

10 V = 2  m/s

11 Morphological Stability Analysis with No Flow

12 [Pole in dispersion relation for k < 0]

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14 Morphological Stability Analysis with Flow BVSUP – Orr-Sommerfeld equations + transport H. Keller’s approach for eigenproblem Re-introduce flow terms one at a time:

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19 Orders of Magnitude of Flow Effects

20 The morphological instability of a fluid-fluid interface sets a micron-sized length scale [comparable to monotectic spacing widths]; other modes of instability may also be studied.The morphological instability of a fluid-fluid interface sets a micron-sized length scale [comparable to monotectic spacing widths]; other modes of instability may also be studied. Flow interactions with the morphological mode may be computed numerically.Flow interactions with the morphological mode may be computed numerically. Buoyancy, density-driven, and thermocapillary flows interact weakly at micron scales (thermocapillary has bimodal behavior at 100 micron scale).Buoyancy, density-driven, and thermocapillary flows interact weakly at micron scales (thermocapillary has bimodal behavior at 100 micron scale). Pressure-driven flow shows large stabilizing effect at micron scales.Pressure-driven flow shows large stabilizing effect at micron scales.Summary In progress: Interpretation of eigenfunctions; additional modes

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