2021
DOI: 10.3390/met11060948
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Combined Effects of EMBr and SEMS on Melt Flow and Solidification in a Thin Slab Continuous Caster

Abstract: Electromagnetic fields have emerged as powerful tools for addressing current problems in thin slab continuous casting processes in the iron and steel industry. Substantial studies have been undertaken on the fundamental effects of electromagnetic brakes (EMBr) and strand electromagnetic stirring (SEMS). However, little attention has been focused on melt flow and solidification in a thin slab continuous caster with the simultaneous application of an EMBr and SEMS. The present study aimed to predict transient fi… Show more

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Cited by 19 publications
(13 citation statements)
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“…In order to improve the flow stability, temperature homogenization, and reduce inclusions in the CC mold, the electromagnetic brake (EMBr) and electromagnetic stirring (EMS) technology is widely used. Wang et al [5] developed an LES model to study the melt flow and solidified shell distribution in a thin slab caster, simultaneously considering a single-ruler EMBr and a strand EMS. Results show that the coupled application of an EMBr and SEMS can produce a high-quality thin slab.…”
Section: Contributionsmentioning
confidence: 99%
“…In order to improve the flow stability, temperature homogenization, and reduce inclusions in the CC mold, the electromagnetic brake (EMBr) and electromagnetic stirring (EMS) technology is widely used. Wang et al [5] developed an LES model to study the melt flow and solidified shell distribution in a thin slab caster, simultaneously considering a single-ruler EMBr and a strand EMS. Results show that the coupled application of an EMBr and SEMS can produce a high-quality thin slab.…”
Section: Contributionsmentioning
confidence: 99%
“…The electromagnetic field formulas [25][26][27] for mold electromagnetic stirring include constitutive equations, Ohm law's, and Maxwell's equations.…”
Section: Electromagnetic Equationsmentioning
confidence: 99%
“…[ 21 ] It allows reducing the impingement effect of the hot jets, promotes the calmness of the meniscus, and enhances the superheat transport for stable flux melting rate, etc. [ 22 ] A recent study of the EMBr effect on the non‐metallic inclusions removal was done by Yin et al [ 23 ] An advance technique, combining a mold EMBr and a strand electromagnetic stirring (SEMS) to enhance uniformity of the solidification, was presented by Wang et al [ 24 ] Another new approach, introducing two vertical magnetic poles (VMPs) in a freestanding and adjustable EMBr (FAC‐EMBr) to weaken the jets interference with the shell and meniscus region, was proposed by Li et al [ 25 ]…”
Section: Introductionmentioning
confidence: 99%
“…Nowadays, the advance numerical modeling technique resulted in the numerous studies on this topic. [ 24,26–29 ] In the presented study, the coupled solidification and magnetohydrodynamics (MHD) models, previously developed and verified by the current authors, [ 30–33 ] implemented in the open‐source computational fluid dynamics (CFD) package OpenFOAM, [ 34 ] are applied to simulate the effects of the electromagnetic braking on the asymmetric melt flow caused by the partial SEN clogging.…”
Section: Introductionmentioning
confidence: 99%