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Journal of Iron and Steel Research International
Erschienen in: Journal of Iron and Steel Research International 4/2021

08.10.2020 | Original Paper

Numerical simulation of macrosegregation in continuously cast gear steel 20CrMnTi with final electromagnetic stirring

verfasst von: Sheng-kui Yin, Sen Luo, Wen-jie Zhang, Wei-ling Wang, Miao-yong Zhu

Erschienen in: Journal of Iron and Steel Research International | Ausgabe 4/2021

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Abstract

A 3D/2D hybrid multi-physical-field mathematical model, which takes into consideration the thermosolutal buoyance, was developed to predict the macrosegregation of gear steel 20CrMnTi continuously cast by a curved billet caster with size of 160 mm × 160 mm, and investigated the effect of final electromagnetic stirring (F-EMS) on the fluid flow, heat transfer and solute distribution in the liquid core of continuously cast steel. The results show that the application of F-EMS eliminates the effect of thermosolutal buoyancy on the asymmetric distribution of carbon concentration in the cross section of billet and accelerates the final solidification of resident molten steel in the liquid core of strand, but promotes the negative carbon segregation near the billet center. When the gear steel 20CrMnTi is cast at the temperature of 1803 K and speed of 1.7 m/min, the solidification end advances forward from 9.84 to 9.72 m, and center carbon segregation ratio of billet decreases from 1.24 to 1.17 with the increase in current density of F-EMS from 0 to 350 A.
Vorheriger Artikel Effect of reduction pretreatment process on evolution of micro-porosity in 42CrMo billet
Nächster Artikel Effect of electropulsing on austenite to ferrite transformation in low-carbon steel
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Metadaten
Titel
Numerical simulation of macrosegregation in continuously cast gear steel 20CrMnTi with final electromagnetic stirring
verfasst von
Sheng-kui Yin
Sen Luo
Wen-jie Zhang
Wei-ling Wang
Miao-yong Zhu
Publikationsdatum
08.10.2020
Verlag
Springer Singapore
Erschienen in
Journal of Iron and Steel Research International / Ausgabe 4/2021
Print ISSN: 1006-706X
Elektronische ISSN: 2210-3988
DOI
https://doi.org/10.1007/s42243-020-00490-1

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