A new oscillatory instability in a mushy layer during the solidification of binary alloys-Reference-Cited by-同舟云学术

A new oscillatory instability in a mushy layer during the solidification of binary alloys

Published:1996-01-25 Issue: Volume:307 Page:245-267
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Anderson D. M.,Worster M. Grae

Abstract

We consider the solidification of a binary alloy in a mushy layer and analyse the linear stability of a quiescent state with specific interest in identifying an oscillatory convective instability. We employ a near-eutectic approximation and consider the limit of large far-field temperature. These asymptotic limits allow us to examine the dynamics of the mushy layer in the form of small deviations from the classical case of convection in a horizontal porous layer of uniform permeability. We consider also the limit of large Stefan number, which incorporates a key balance necessary for the existence of the oscillatory instability. The model we consider here contains no double-diffusive effects and no region in which a statically stable density gradient exists. The mechanism underlying the oscillatory instability we discover is instead associated with a complex interaction between heat transfer, convection and solidification.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference20 articles.

1. Amberg, G. & Homsy, G. M. 1993 Nonlinear analysis of buoyant convection in binary solidification with application to channel formation.J. Fluid Mech. 252,79–98.

2. Bennon, W. D. & Incropera, F. P. 1987 A continuum model for momentum, heat and species transport in binary solid–liquid phase change systems–I. Model formulation.Intl J. Heat Mass Transfer 30,2161–2170.

3. Voller, V. R. & Brent, A. D. 1989 The modelling of heat, mass and solute transport in solidification systems.Intl J. Heat Mass Transfer 32,1719–1731.

4. Chen, F. , Lu, J. W. & Yang, T. L. 1994 Convective instability in ammonium chloride solution directionally solidified from below.J. Fluid Mech. 276,163–187.

5. Palm, E. , Weber, J. E. & Kvernvold, O. 1972 On steady convection in a porous medium.J. Fluid Mech. 54,153–161.

Cited by 65 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. The Mullins–Sekerka theory: 60 years of morphological stability;Journal of Applied Physics;2024-08-01

2. Stability of triple-diffusive convection in a vertical porous layer;Journal of Fluid Mechanics;2024-06-25

3. Steady-state crystallization with a mushy layer: a test of theory with experiments;The European Physical Journal Special Topics;2023-05-15

4. Directional crystallization with a mushy region. Part 2: nonlinear analysis of dynamic stability;The European Physical Journal Special Topics;2023-04-03

5. On the Theory of Unsteady-State Operation of Bulk Continuous Crystallization;Crystals;2022-11-14