Analysis Of Turbulence At The Metal/Slag Interface In The Meniscus Region Of A Continuous Casting Mold Through Physical And Mathematical Modelling

The Minerals, Metals and Materials Society

Varadarajan Seshadri Jose Dimas de Arruda Amanda Aparecida Fátima Arruda Samuel da Silva de Souza Carlos Antonio da Silva Itavahn Alves da Silva

Organization:: The Minerals, Metals and Materials Society
Pages:: 8
File Size:: 1151 KB
Publication Date:: Jan 1, 2016

Abstract

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The knowledge of the flow field inside a continuous casting mold is essential to improve operational efficiency of the process and also to achieve better inclusion control. Physical modeling, PIV technique and CFD have been employed to assess the velocity distribution in the metal- slag interface region in a slab mold. The analysis of results shows how higher casting velocity and lower immersion depth of submerged nozzle can lead to higher turbulence in the slag-metal interface. The effects of density difference between slag and metal and interfacial tension between the phases have been highlighted.

Citation

APA: Varadarajan Seshadri Jose Dimas de Arruda Amanda Aparecida Fátima Arruda Samuel da Silva de Souza Carlos Antonio da Silva Itavahn Alves da Silva (2016) Analysis Of Turbulence At The Metal/Slag Interface In The Meniscus Region Of A Continuous Casting Mold Through Physical And Mathematical Modelling

MLA: Varadarajan Seshadri Jose Dimas de Arruda Amanda Aparecida Fátima Arruda Samuel da Silva de Souza Carlos Antonio da Silva Itavahn Alves da Silva Analysis Of Turbulence At The Metal/Slag Interface In The Meniscus Region Of A Continuous Casting Mold Through Physical And Mathematical Modelling. The Minerals, Metals and Materials Society, 2016.

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