The viscous flow of CaO–SiO
2–MgO–TiO
2–Al
2O
3–Cr
2O
3 slag (CaO/SiO
2=0.9–1.3, Cr
2O
3=0–4 mass%) were investigated to promote understanding of the effect of Cr
2O
3 addition and basicity (CaO/SiO
2) on the viscous behavior of slag containing TiO
2. The viscosity of slag was found to significantly increase with increasing Cr
2O
3 content at a fixed basicity. The increase in basicity could alleviate the viscosity of the slag to a particular extent. And this study involved the use of theoretical calculations and experiments to prove that Cr
2O
3 in the BF slag could easily react with MgO and Al
2O
3 to generate spinel phase (MgCr
2O
4, MgCrAlO
4) with high melting points, there increasing the viscosity of the slag. The perovskite phase with high melting points is easily crystallized out at high temperatures with increasing Cr
2O
3 content and basicity which makes the viscosity of the slag increase sharply with increasing the CaO/SiO
2 ratio. In addition, this study analyzed the silicate structure of the slag via infrared spectroscopy. The addition of Cr
2O
3 has little effect on the silicate structure of the slag. The increasing basicity enabled the slag to become simple in structure. However, the viscosity of the slag increased rapidly because of the precipitation of the high melting phase perovskite.
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