Wettability of Molten Fe–Al Alloys against Oxide Substrates with Various SiO₂ Activity

Abstract

The contact angle between molten Fe–Al alloy with 0.03, 0.3, and 3 mass% Al composition, and Y₂O₃ matrix oxide substrate with 0.002, 0.32, and 1 SiO₂ activity was measured using sessile drop method in Ar atmosphere at 1873 K, and the interfacial tension was evaluated. The contact angle and interfacial tension between the molten Fe-0.3 Al alloy and the Y₂Si₂O₇ + SiO₂ (a_SiO2 = 1) substrate decreased over time during 60 s after the molten alloy was dropped onto the substrate. The decrease of the contact angle was 20°, and that of the interfacial tension was 628 mN·m⁻¹ Conversely, the other contact angles and the other interfacial energies were almost stable during the same period. The decrease of the contact angles ranged between 0° and 7°, and that of the interfacial tensions ranged 4 and 195 mN·m⁻¹. By observing the wetting behavior for 60 min, it was recognized that the interfacial reaction between the Fe–Al alloy and the oxide substrate was the redox reaction between Al composition in the alloy and SiO₂ composition in the substrate, composed of SiO₂ decomposition reaction and Al₂O₃ formation reaction between oxygen absorbed at the interface and Al composition in the alloy. In addition, it was indicated from the interfacial tension dependence on SiO₂ activity that the medium SiO₂ volume slag for the molten low-Al steel and the low SiO₂ volume slag for the molten high-Al steel were effective in preventing the small droplets of molten slag into the molten steel.