2021
DOI: 10.1002/srin.202100072
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Investigation on the Effects of Ladle Change Operation and Tundish Cover Powder on Steel Cleanliness in a Continuous Casting Tundish

Abstract: The multiphase flows involving steel—slag—air phases in a two‐strand tundish during ladle change are investigated using mathematical modeling. Experimental results from water modeling are used to validate the simulated results. Tundish cover powder (TCP) and steel samples are taken from eight heats in one sequence to evaluate the effect of the multiphase flows during ladle change on the composition of the TCPs and steel cleanliness. Furthermore, the effect of the refilling time on the air entrainment and slag … Show more

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Cited by 8 publications
(4 citation statements)
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“…These, when exiting the Ladle Shroud, and rising to the liquid steel surface within the tundish, can be expected to disturb the overlaying 1.5-inch slag layer. This, in turn, can promote slag entrainment in the form of small inclusions, as demonstrated earlier experimentally and numerically [8,9,15].…”
Section: Resultssupporting
confidence: 63%
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“…These, when exiting the Ladle Shroud, and rising to the liquid steel surface within the tundish, can be expected to disturb the overlaying 1.5-inch slag layer. This, in turn, can promote slag entrainment in the form of small inclusions, as demonstrated earlier experimentally and numerically [8,9,15].…”
Section: Resultssupporting
confidence: 63%
“…and rising to the liquid steel surface within the tundish, can be expected to disturb the overlaying 1.5-inch slag layer. This, in turn, can promote slag entrainment in the form of small inclusions, as demonstrated earlier experimentally and numerically [8,9,15]. To complement the previous results for the different phases on the symmetry plane, 3D visualizations of the simulation were generated via Volume Rendering, where the volume is split in 100 planes parallel to the symmetry plane to obtain an inner view of the filling stage at different time steps for the steel volume fraction only.…”
Section: Resultsmentioning
confidence: 82%
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“…With an increase in the pouring rate, the flow of molten steel becomes more intense and the flow rate increases. This intensified flow leads to further mixing of the solute‐enriched residual liquid steel along the solidification front in the lower part of the ingot with the unsolidified liquid steel in the upper part of the ingot, [ 46 ] which is beneficial to reduce the degree of macrosegregation above and below the ingot. Meanwhile, the increase in the pouring rate increases the cooling rate and thus the temperature gradient.…”
Section: Resultsmentioning
confidence: 99%