Influence of Fluorine and CaO/Al2O3 Ratio on the Wetting Behavior Between CaO–Al2O3‐Based Mold Flux and Steel Substrate

Yang, Yang; Wang, Wanlin; Zhou, Lejun; Luo, Hao; Zheng, Qing; Zhao, Ru

doi:10.1002/srin.202200598

steel research int.

2022

DOI: 10.1002/srin.202200598

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Influence of Fluorine and CaO/Al₂O₃ Ratio on the Wetting Behavior Between CaO–Al₂O₃‐Based Mold Flux and Steel Substrate

Yang Yang

Wanlin Wang

Lejun Zhou

et al.

Abstract: The wetting behavior of flux melt on the initial solidified shell greatly determines the slag entrapment in the casting product and the sliver defect in the rolled product. Herein, the wetting behavior of CaO–Al2O3‐based mold flux with various fluorine (F) contents and CaO/Al2O3 (C/A) ratio on steel substrate is studied using the sessile drop method. Results show that the contact angle decreases from 71.35° to 59.86° and from 65.96° to 22.73°, meanwhile, the interfacial tension decreases from 1743.02 to 1669.6… Show more

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2024

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Wettability of Mold Flux with Various Droplet Size on Stainless Steel Substrate

Si,

Wang,

Zhou

et al. 2024

steel research int.

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Wettability of mold flux on stainless steel is a very important index to reflect the possibility of slag entrapment during the continuous casting process. In this study, the wetting behavior of mold flux droplet with different size on stainless steel is investigated using sessile drop method. Results show that the contact angle at 1573 K increases from 64.62 ± 0.25°, 62.56 ± 0.2° to 61.46 ± 0.2° and 60.56 ± 0.2°, with the size of the original flux sample increasing from 3, 4 to 5 and 6 mm. No chemical reaction occurs at the interface between mold flux and steel substrate via the thermodynamic calculation and microstructure analyses. Furthermore, the line tension of flux droplet/stainless steel/Ar‐5%H2 system ranges from 160.55 to 125.19 mN m−1 at the temperature range of 1473–1573 K. It is due to the positive line tension (line energy) which decreases the wettability of flux droplet on steel substrate and results in an increase of contact angle when the droplet size reduces.

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Wettability of Mold Flux with Various Droplet Size on Stainless Steel Substrate

Si,

Wang,

Zhou

et al. 2024

steel research int.

View full text Add to dashboard Cite

show abstract

Research on the Design of Fluoride‐Free Continuous Casting Mold Flux System for High‐Aluminum Steel

Yang,

Guan,

et al. 2024

steel research int.

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To get rid of the restrictions imposed by the components of the original mold flux and minimize fluorides to the largest extent, this article has designed the continuous casting mold flux for high‐aluminum steel with an aluminum content of 1.35% and tested the performance manifestations of the mold flux by integrating equipment like a rotational viscometer, S/DHTT‐TA‐III thermal analyzer, and X‐ray diffraction. The composition of the continuous casting mold flux for high‐aluminum steel is: CaO = 23–43 wt%, SiO2 = 12–25 wt%, Al2O3 = 14–26 wt%, B2O3 = 13–17 wt%, and Li2O = 4–8 wt%. The newly designed mold flux has a lower melting temperature and its performance still satisfies the conditions for continuous casting after the reaction. The crystallization process of the on‐site using mold flux lasts 198 s, with the precipitated phases being Na2CaSiO4 and Ca3Si2O7. The crystallization process of the newly designed mold flux lasts ≈324 s, with the precipitated phase mainly being LiAlO2, and the mold flux can maintain a low viscosity and a relatively thick liquid slag layer for a longer period of time.

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Influence of Fluorine and CaO/Al₂O₃ Ratio on the Wetting Behavior Between CaO–Al₂O₃‐Based Mold Flux and Steel Substrate

Cited by 2 publications

References 32 publications

Wettability of Mold Flux with Various Droplet Size on Stainless Steel Substrate

Wettability of Mold Flux with Various Droplet Size on Stainless Steel Substrate

Research on the Design of Fluoride‐Free Continuous Casting Mold Flux System for High‐Aluminum Steel

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