COMPORTAMENTO DO AÇO LÍQUIDO NA REGIÃO DO MENISCO DO MOLDE DE LINGOTAMENTO CONTÍNUO, VIA MODELAGENS FÍSICA E MATEMÁTICA

COMPORTAMENTO DO AÇO LÍQUIDO NA REGIÃO DO MENISCO DO MOLDE DE LINGOTAMENTO CONTÍNUO, VIA MODELAGENS FÍSICA E MATEMÁTICA

The likely influence of casting velocity, mold geometry and depth of immersion of the SEN, internal geometry and inclination of the ports of the SEN on the stability of the steel flow in the mold of a continuous casting machine have been assessed through mathematical and physical modeling. Experimen...

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Bibliographic Details
Published in:Tecnologia em metalurgia, materiais e mineração Vol. 7; no. 1-2; p. 18
Main Authors: Araújo Junior, Ely da Silva, Gasparini, Vitor Maggioni, Silva, Carlos Antonio da, Silva, Itavahn Alves da, Carvalho Filho, Helder Campos de, Mansur, Filipe, Perim, Carlos Alberto, Seshadri, Varadarajan
Format: Journal Article
Language:Breton
Portuguese
Published: Sao Paulo Associação Brasileira de Metalurgia, Materiais e Mineração 01-07-2010
Subjects:
Computer simulation
Continuous casting
Continuous casting machines
Flow stability
Inclination
Mathematical analysis
Mathematical models
Molds
Ports
Steels
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Summary:The likely influence of casting velocity, mold geometry and depth of immersion of the SEN, internal geometry and inclination of the ports of the SEN on the stability of the steel flow in the mold of a continuous casting machine have been assessed through mathematical and physical modeling. Experimental data obtained through physical modeling are grouped by means of the F parameter, defined from the values of casting speed, the depth of the impact point of the steel jet against the narrow face and angle of the steel jet. Numerical simulations allow to estimate the subsurface velocity for the test conditions used in the model. The results of physical and mathematical modeling allow the identification of the ideal casting conditions for two nozzle configurations.
ISSN:2176-1515
2176-1523
DOI:10.4322/tmm.00701004