The main diluent for chromium-containing slags is CaF2. However, fluorspar disadvantages make it necessary to search for a replacement. As a substitute, boron oxide allows to improve slag physical properties and environmental situation. The paper presents the experimental study results of the chemical composition and temperature influence on viscosity of slags of CaO–SiO2–Cr2O3 system containing 8% MgO, 3% Al2O3 and 6% B2O3. It was found that a slag free of chromium oxide with basicity of 1.0 has a sufficiently high fluidity of 0.2–0.6 Pa·s in a wide temperature range of 1200–1350°C, due to high concentration of low-melting phases, reaching 22%, and only 11 % high-melting. A slag with 18% Cr2O3 and the same basicity retains a low viscosity of 0.1–1.0 Pa·s but at higher temperature of 1450–1570 °C due to increase in high-melting compound content to 27%. The viscosity of a slag with basicity of 2.5 without chromium oxide is 0.07–1.0 Pa·s in a narrow temperature range of 1650–1700°C and 0.14–1.0 Pa·s for a ‘shorter’ slag with 18% Cr2O3 and same basicity in even narrower range of 1650–1670°C. These slags have the highest high-melting phase content of about 50%.
Using the HSC 6.1 Chemistry (Outokumpu) software package in combination with simplex-lattice planning, we performed thermodynamic modeling of the equilibrium cerium content in a metal containing 0.06% C, 0.25 Si, 0.05% Al (in this expression and further on the text indicates mass%), under the slag of the CaO – SiO2 – Ce2O3 – 15% Al2O3 – 8% MgO system in a wide range of chemical composition at temperatures of 1550 °C and 1650 °C. For each temperature, adequate mathematical models have been obtained in the form of a reduced polynomial of degree III, describing the equilibrium content of cerium in the metal depending on the composition of the slag. The results of mathematical modeling are presented graphically in the form of diagrams of the composition – the equilibrium content of cerium. A marked effect of slag basicity on the distribution of cerium is noted. An increase in slag basicity from 2 to 5 at a temperature of 1550 °C leads to an increase in the equilibrium cerium content in the metal from 0.1 to 7 ppm, i.e. the increase in slag basicity favorably affects the development of cerium recovery process. An increase in metal temperature has a positive effect on cerium recovery. As the temperature rises to 1650 °C, the equilibrium cerium content in the metal increases on average from 0.3 to 10 ppm. In the diagrams of the chemical composition of slags containing 56-61% CaO, 12-14% SiO2 and 15% Al2O3 in the temperature range of 1550 and 1650 °C, we can expect a concentration of cerium in the metal at a level of 7-10 ppm at a content of 4% to 7% Ce2O3 in the original slag. The positive effect of the basicity of the formed slag in the studied range of chemical composition on the cerium reduction process is explained from the standpoint of the phase composition of the slag and the thermodynamics of cerium reduction reactions.
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