On the solute coupling at the moving solid/liquid interface during equiaxed solidification

X. Yao

doi:10.1063/1.2336079

On the solute coupling at the moving solid/liquid interface during equiaxed solidification

X. Yao

School of Energy and Power Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Integral mass conservation was widely accepted for the solute coupling to solve solute redistribution during equiaxed solidification so far. The present study revealed that the integral form was invalid for moving boundary problems as it could not represent the mass balance at the moving interface. Accordingly, differential mass conservation at the solid/liquid interface was used to solve solute diffusion for spherical geometry. The model was applied for hydrogen diffusion in solidification to validate that the hydrogen enrichment was significant and depended on the growth rate.

Original language	English
Article number	071903
Journal	Applied Physics Letters
Volume	89
Issue number	7
DOIs	https://doi.org/10.1063/1.2336079
State	Published - 2006

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title = "On the solute coupling at the moving solid/liquid interface during equiaxed solidification",

abstract = "Integral mass conservation was widely accepted for the solute coupling to solve solute redistribution during equiaxed solidification so far. The present study revealed that the integral form was invalid for moving boundary problems as it could not represent the mass balance at the moving interface. Accordingly, differential mass conservation at the solid/liquid interface was used to solve solute diffusion for spherical geometry. The model was applied for hydrogen diffusion in solidification to validate that the hydrogen enrichment was significant and depended on the growth rate.",

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AB - Integral mass conservation was widely accepted for the solute coupling to solve solute redistribution during equiaxed solidification so far. The present study revealed that the integral form was invalid for moving boundary problems as it could not represent the mass balance at the moving interface. Accordingly, differential mass conservation at the solid/liquid interface was used to solve solute diffusion for spherical geometry. The model was applied for hydrogen diffusion in solidification to validate that the hydrogen enrichment was significant and depended on the growth rate.

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On the solute coupling at the moving solid/liquid interface during equiaxed solidification

Abstract

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