Fluid Flow, Alloy Dispersion And Inclusion Motion In Argon-Stirred Steel Ladles

The Minerals, Metals and Materials Society

Yanlong Li Lifeng Zhang Ying Ren

Organization:: The Minerals, Metals and Materials Society
Pages:: 8
File Size:: 770 KB
Publication Date:: Jan 1, 2014

Abstract

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In this work, a multiphase mathematical model for the fluid flow in argon-stirred steel ladles was established and validated by experimental measurement of wood's metal. Alloy dispersion in the molten steel was calculated. The melting and mixing of alloy was faster with smaller size of the alloy particles, larger superheat and bigger slip velocity. The current mixing time is approximately 300 s with 30 mm alloy diameter and 91.5 K superheat.

Citation

APA: Yanlong Li Lifeng Zhang Ying Ren (2014) Fluid Flow, Alloy Dispersion And Inclusion Motion In Argon-Stirred Steel Ladles

MLA: Yanlong Li Lifeng Zhang Ying Ren Fluid Flow, Alloy Dispersion And Inclusion Motion In Argon-Stirred Steel Ladles. The Minerals, Metals and Materials Society, 2014.

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