第12期 李鹏程等：基于离子和分子共存理论的炉渣氧化能力表征 ·1579· model for calculating sulphur distribution ratio between coexistence theory.Metall Mater Trans B,2011,42(6): CaO-SiO2-MgO-Al2O3 ironmaking slags and carbon satu- 1150 rated hot metal based on the ion and molecule coexistence [40 Yang X M,Shi C B,Zhang M,et al.A sulfide capac- theory.ISIJ Int,2009,49(12):1828 ity prediction model of CaO-SiO2-MgO-FeO-MnO-Al2O3 [38]Shi C B,Yang X M,Jiao J S,et al.A sulphide capac- slags during the LF refining process based on the ion and ity prediction model of CaO-SiO2-MgO-Al2Os ironmak- molecule coexistence theory.Metall Mater Trans B,2012 ing slags based on the ion and molecule coexistence theory. 43(2):241 IS1JInt,2010,50(10):1362 [41]Zhang J.Computational Thermodynamics of Metallurgi- [39]Yang X M,Shi C B,Zhang M,et al.A thermody- cal Melts and Solutions.Beijing:Metallurgical Industry namic model of sulfur distribution ratio between CaO- Press,2007 SiO2-MgO-FeO-MnO-Al203 slags and molten steel dur- [42 Turkdogan E T.Physicochemical Properties of Molten ing LF refining process based on the ion and molecule Slags and Glasses.London:The Metals Society,1983第 12 期 李鹏程等：基于离子和分子共存理论的炉渣氧化能力表征 1579 ·· model for calculating sulphur distribution ratio between CaO-SiO2-MgO-Al2O3 ironmaking slags and carbon satu￾rated hot metal based on the ion and molecule coexistence theory. ISIJ Int, 2009, 49(12): 1828 [38] Shi C B, Yang X M, Jiao J S, et al. A sulphide capac￾ity prediction model of CaO-SiO2-MgO-Al2O3 ironmak￾ing slags based on the ion and molecule coexistence theory. ISIJ Int, 2010, 50(10): 1362 [39] Yang X M, Shi C B, Zhang M, et al. A thermody￾namic model of sulfur distribution ratio between CaO￾SiO2-MgO-FeO-MnO-Al2O3 slags and molten steel dur￾ing LF refining process based on the ion and molecule coexistence theory. Metall Mater Trans B, 2011, 42(6): 1150 [40] Yang X M, Shi C B, Zhang M, et al. A sulfide capac￾ity prediction model of CaO-SiO2-MgO-FeO-MnO-Al2O3 slags during the LF refining process based on the ion and molecule coexistence theory. Metall Mater Trans B, 2012, 43(2): 241 [41] Zhang J. Computational Thermodynamics of Metallurgi￾cal Melts and Solutions. Beijing: Metallurgical Industry Press, 2007 [42] Turkdogan E T. Physicochemical Properties of Molten Slags and Glasses. London: The Metals Society, 1983