Effects of Mold Powder Chemistry on Shell Growth, Momentum and Heat Transfer in a Billet Mold

Effects of mold powder chemistry on shell growth and thinning have been studied using Computer Fluid Dynamic techniques under conditions of constant casting speed and steel superheat for a peritectic steel in a billet caster. Two mold powders were considered; a basic powder suitable for peritectic s...

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Bibliographic Details
Published in:Steel research international 2011-04, Vol.82 (4), p.301-312
Main Authors: Nájera-Bastida, A., Morales, R.D., García-Demedices, L., Zárate-Gutiérrez, R., Rodríguez-Ávila, J.
Format: Article
Language:English
Subjects:
Billet casting
Curvature
fluid flow
Heat transfer
Infiltration
mold powder
Molds
Shell thinning
Shells
Steels
Strands
Thinning
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Summary:Effects of mold powder chemistry on shell growth and thinning have been studied using Computer Fluid Dynamic techniques under conditions of constant casting speed and steel superheat for a peritectic steel in a billet caster. Two mold powders were considered; a basic powder suitable for peritectic steels and an acid powder not recommendable for this steel in order to emphasize the importance of chemistry on shell stability. Numerical results indicate a strong interaction between powder composition and steel flow‐heat transfer phenomena. The acid powder creates recirculating flows at both sides of the entry jet that transport sensible heat to the shell inducing its remelting and thinning leading, eventually, to a strand breakout. Meanwhile, the basic powder induces a single recirculating flow in the internal radius side of the mold without severe shell thinning. A colder meniscus is predicted using the acid powder which is in agreement with the casting practice experience. Powder infiltration of the basic powder in between the mold hot wall and the strand provides a powder shell with a macroscopically smooth surface while the acid powder yields irregular infiltration. Buoyancy forces along the mold working height and mold curvature play a fundamental role on the generation of the recirculating flows. Interaction between powder chemistry and fluid flow‐heat transfer are two‐way coupled phenomena that must be considered for powder design purposes.
ISSN:1611-3683
1869-344X
1869-344X
DOI:10.1002/srin.201000140