Simulation of interfacial instabilities during solidification. I: Conduction and capillarity effects

H. S UDAYKUMAR; W SHYY

doi:10.1016/0017-9310(94)00315-M

Back

Simulation of interfacial instabilities during solidification. I: Conduction and capillarity effects

Journal article

Peer reviewed

Simulation of interfacial instabilities during solidification. I: Conduction and capillarity effects

H. S UDAYKUMAR and W SHYY

International journal of heat and mass transfer, Vol.38(11), pp.2057-2073

1995

DOI: 10.1016/0017-9310(94)00315-M

View Online

Abstract

A combined Eulerian-Lagrangian numerical method is developed for simulating deformed interfaces arising in the solidification of pure materials. The interface tracking procedure employs marker particles and is the Lagrangian component of the calculation. The field equations are solved in a fixed Eulerian framework, so that the interface passes through the grid layout. Information from the explicitly tracked interface is used to apply boundary conditions at the exact interface location in each computational cell, in contrast with other Eulerian schemes. Consistent with the the established theory, in the absence of surface tension, the present simulations result in different types of behavior such as tip-splitting and cusp formation. For low surface tensions, due to the lack of physical length scales, the solutions are qualitatively affected by grid resolution with no unique solution available. In contrast, with substantial surface tension values the initial perturbation grows to form long fingers. The finger shapes reflect the stabilizing effects of capillarity. Unique solutions can be reached with nonzero surface tension.

Fluid Dynamics

Physics

Heat Transfer

Heat transfer in inhomogeneous media, in porous media, and through interfaces

Heat flow in porous media

Fundamental areas of phenomenology (including applications)

Hydrodynamic stability

Exact sciences and technology

Interfacial instability

Details

Title: Subtitle: Simulation of interfacial instabilities during solidification. I: Conduction and capillarity effects
Creators: H. S UDAYKUMAR - Univ. Florida, dep. aerospace eng. mechanics eng. sci., Gainesville FL 32611, United States
W SHYY - Univ. Florida, dep. aerospace eng. mechanics eng. sci., Gainesville FL 32611, United States
Resource Type: Journal article
Publication Details: International journal of heat and mass transfer, Vol.38(11), pp.2057-2073
DOI: 10.1016/0017-9310(94)00315-M
ISSN: 0017-9310
eISSN: 1879-2189
Publisher: Elsevier; Oxford
Language: English
Date published: 1995
Academic Unit: Injury Prevention Research Center; Mechanical Engineering
Record Identifier: 9984064101302771

Metrics

23 Record Views

26 Times Cited - Web of Science