Design and Analysis of Fluorine-Free Mold Fluxes for Continuous Casting of Peritectic Steels

Fluorine-based mold fluxes are critical for continuous casting of peritectic steels, controlling heat transfer and preventing cracks. However, environmental and health concerns associated with fluorine have spurred the search for alternative flux compositions. This study applied a factorial design t...

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Veröffentlicht in:	Materials 2024-12, Vol.17 (23), p.5947
Hauptverfasser:	Pereira, Márcia Maria da Silva Monteiro, Tavernier, Hervé, Dos Santos Junior, Tiago, Vernilli, Fernando
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Sprache:	eng
Schlagworte:	Analysis Boron oxides Calorimetry Composition effects Continuous casting Crystallization Diffraction Factorial design Fluorine Fluorine compounds Founding Heat transfer Independent variables Low carbon steels Merwinite Mold fluxes Performance evaluation Perovskite Perovskites Polymerization Raw materials Software Steel industry Steel making Temperature Thermodynamic models Thermodynamics Titanium dioxide Viscosity Viscosity measurement X-rays
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description	Fluorine-based mold fluxes are critical for continuous casting of peritectic steels, controlling heat transfer and preventing cracks. However, environmental and health concerns associated with fluorine have spurred the search for alternative flux compositions. This study applied a factorial design to explore the effects of Na2O, TiO2, B2O3, and fluorine on key properties such as viscosity, crystallization temperature, and melting behavior. Analytical methods, including viscosity measurements, differential scanning calorimetry (DSC), X-ray diffraction (XRD), and scanning electron microscopy (SEM-EDS), combined with thermodynamic modeling, were used to evaluate performance. Four formulations were selected based on factorial design results. Sample A, with high Na2O, exhibited intense crystallization of merwinite (Ca3MgSi2O8) and perovskite (CaTiO3). Sample B, incorporating B2O3, had reduced crystallization and suitable viscosity (2.97 Pa·s). Sample C, with a slightly higher fluorine content than Sample B and without B2O3, presented balanced low viscosity (1.75 Pa·s) with a moderate crystallization tendency. Sample D, free of fluorine and B2O3, showed high viscosity (4.58 Pa·s) and significant crystallization. These results demonstrate that fluorine-free fluxes with properties comparable to fluorine-based compositions can be developed, offering a sustainable alternative for steelmaking. Industrial trials are necessary to validate their performance under operational conditions.
doi_str_mv	10.3390/ma17235947
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Sample D, free of fluorine and B2O3, showed high viscosity (4.58 Pa·s) and significant crystallization. These results demonstrate that fluorine-free fluxes with properties comparable to fluorine-based compositions can be developed, offering a sustainable alternative for steelmaking. 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Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). 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Sample D, free of fluorine and B2O3, showed high viscosity (4.58 Pa·s) and significant crystallization. These results demonstrate that fluorine-free fluxes with properties comparable to fluorine-based compositions can be developed, offering a sustainable alternative for steelmaking. 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subjects	Analysis Boron oxides Calorimetry Composition effects Continuous casting Crystallization Diffraction Factorial design Fluorine Fluorine compounds Founding Heat transfer Independent variables Low carbon steels Merwinite Mold fluxes Performance evaluation Perovskite Perovskites Polymerization Raw materials Software Steel industry Steel making Temperature Thermodynamic models Thermodynamics Titanium dioxide Viscosity Viscosity measurement X-rays
title	Design and Analysis of Fluorine-Free Mold Fluxes for Continuous Casting of Peritectic Steels
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