Supplemental relations at phase interface across which velocity and temperature jump

Fried, Eliot; Shen, Amy Q.

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https://hdl.handle.net/2142/112609 Copy

Description

Title

Supplemental relations at phase interface across which velocity and temperature jump

Author(s)

• Fried, Eliot
• Shen, Amy Q.

Issue Date

1999-03

Keyword(s)

• Phase Interface
• Velocity
• Temperature Jump

Abstract

We obtain an expression for the energy dissipation due to an evolving nonnmaterial interface across which the mass density, velocity, stress, energy density. heat flux, entropy density, and temperature may be discontinuous. This expression is a sum of three terms: the product of the interfacial mass flux with a quantity we refer to as the interfacial energy release; the scalar product of the interfacial velocity slip with the interfacial friction; and, the product of the interfacial temperature jump, scaled by the interfacial temperature average. with the interfacial heating. When the surface in question is a phase interface, we propose, on the basis of the interfacial dissipation inequality, supplemental relations that determine the interfacial energy release, the interfacial friction, and the interfacial heating constitutively as functions of the interfacial mass flux, the interfacial velocity slip, and the scaled interfacial temperature jump. As a step toward an understanding of the role that such interfacial relations may serve in theories for phase transitions, we investigate a problem involving the solidification of a pure substance in the absence of flow.

Publisher

Department of Theoretical and Applied Mechanics. College of Engineering. University of Illinois at Urbana-Champaign

Series/Report Name or Number

• TAM R 901
• 1999-6003

ISSN

0073-5264

Type of Resource

text

Language

eng

Permalink

http://hdl.handle.net/2142/112609

Copyright and License Information

Copyright 1999 Board of Trustees of the University of Illinois

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