New Mold Slag Compositions for the Continuous Casting of Soft Steels
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in: Steel research international, Jahrgang 2022, Nr. 93, 2021, S. 1-7.
Publikationen: Beitrag in Fachzeitschrift › Artikel › Forschung › (peer-reviewed)
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TY - JOUR
T1 - New Mold Slag Compositions for the Continuous Casting of Soft Steels
AU - Kölbl, Nathalie
N1 - Publisher Copyright: © 2021 The Authors. Steel Research International published by Wiley-VCH GmbH
PY - 2021
Y1 - 2021
N2 - Several fluorine-free mold slag compositions have already been established in the literature. In all cases, the formation of a crystalline phase exhibiting behavior similar to that of cuspidine is emphasized to control horizontal heat transfer without influencing the lubrication performance for the casting of peritectic steel grades. In contrast, for casting soft steels, glassy solidification of the slag is required. Herein, different slag compositions involving the selected oxides are developed with the help of FactSage calculations. Mixtures of pure raw materials are melted at 1673 K and quenched to 295 K. It is observed that B 2O 3 increases the glass-forming ability of the slags. To obtain the glassy phase, the composition must satisfy the conditions (Formula presented.) and (Formula presented.). For TiO 2 content <10 wt%, glassy solidification is detected after quenching to room temperature. However, this phenomenon-is not observed for slags with TiO 2 content >15 wt%. Moreover, the addition of alumina and alkali oxides enhances crystallization. Based on these findings, promising mold slag compositions are designed and characterized in the laboratory using a furnace crystallization test, mineralogical investigations, and the single/double hot thermocouple technique. From the investigated mixtures, three compositions are suggested for use in continuous casting processes.
AB - Several fluorine-free mold slag compositions have already been established in the literature. In all cases, the formation of a crystalline phase exhibiting behavior similar to that of cuspidine is emphasized to control horizontal heat transfer without influencing the lubrication performance for the casting of peritectic steel grades. In contrast, for casting soft steels, glassy solidification of the slag is required. Herein, different slag compositions involving the selected oxides are developed with the help of FactSage calculations. Mixtures of pure raw materials are melted at 1673 K and quenched to 295 K. It is observed that B 2O 3 increases the glass-forming ability of the slags. To obtain the glassy phase, the composition must satisfy the conditions (Formula presented.) and (Formula presented.). For TiO 2 content <10 wt%, glassy solidification is detected after quenching to room temperature. However, this phenomenon-is not observed for slags with TiO 2 content >15 wt%. Moreover, the addition of alumina and alkali oxides enhances crystallization. Based on these findings, promising mold slag compositions are designed and characterized in the laboratory using a furnace crystallization test, mineralogical investigations, and the single/double hot thermocouple technique. From the investigated mixtures, three compositions are suggested for use in continuous casting processes.
KW - crystallization
KW - double hot thermocouple technique
KW - fluorine free
KW - mold slags
KW - single hot thermocouple technique
KW - viscosity
UR - http://www.scopus.com/inward/record.url?scp=85106214850&partnerID=8YFLogxK
U2 - 10.1002/srin.202100165
DO - 10.1002/srin.202100165
M3 - Article
VL - 2022
SP - 1
EP - 7
JO - Steel research international
JF - Steel research international
SN - 1869-344X
IS - 93
ER -