Effect of Al₂O₃/SiO₂ ratio on the viscosity and structure of slags

The present paper investigates how the mass ratio between Al ₂O₃ and SiO₂ (mAl₂O ₃/mSiO₂) in slag compositions influences the structure, viscosity and crystallization of the slag melts. The objective is to study the variations in viscosity and structure of slags with increasing mAl ₂O₃/mSiO₂ ratio. In practice the results of the study are relevant to the significant changes in slag property caused by the changes in chemical composition during continuous casting of steels containing high amounts of dissolved aluminum. The viscosity was found to decrease slightly with increasing mAl₂O₃/mSiO₂ ratio up to 0.56. The degree of polymerization for [SiO₄]-tetrahedra was found to decrease with increasing mAl₂O₃/mSiO₂ ratio based on the Fourier Transformation-Infrared Spectra (FT-IR) and Raman spectra, which could explain the observed decrease in viscosity. AtmAl₂O ₃/mSiO₂ ratios above 0.56, the viscosity was found to abruptly increase which could be caused by the presence of spinel crystals. The activity coefficient was computed and it was found that the activity coefficient of alumina presents negative deviation when mAl₂O ₃/mSiO₂ ratio is less than 0.35, while it shows a positive deviation when mAl₂O₃/mSiO₂ ratio exceeds 0.35. This phenomenon may be related to the change of the primary phase region correlating to the phase diagram to the slag composition.