Morphological instability at the solid–liquid interface by the maximum entropy production rate principle

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Morphological instability at the solid–liquid interface by the maximum entropy production rate principle.pdf (321.64 KB)

Date

2018-04

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Canadian Journal of Physics

Abstract

We examine the morphological instability from planar to non-planar cellular morphology with the maximum entropy production rate (MEPR) principle. An expression that quantifies the MEPR density at the solid–liquid interface (SLI) during direction solidification is presented, which leads to an instability criterion for dilute binary alloys. The instability criterion also affords to theoretically calculate the instability solidification growth velocity. The model considers steady state solidification at close-to and far-from equilibrium conditions.

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Maximum entropy production rate (MEPR) principle, Planar morphology, Cellular morphology, Morphological transition, Solid–liquid interface

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http://ugspace.ug.edu.gh/handle/123456789/31494

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Department of Materials Science and Engineering