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Volume 11 Issue 5
Oct.  2004
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Peimin Guo, Zhengbang Li, and Gongwen Lin, Activity model and its application in CaO-FeO-SiO2-MoO3 quarternary system, J. Univ. Sci. Technol. Beijing, 11(2004), No. 5, pp. 406-410.
Cite this article as:
Peimin Guo, Zhengbang Li, and Gongwen Lin, Activity model and its application in CaO-FeO-SiO2-MoO3 quarternary system, J. Univ. Sci. Technol. Beijing, 11(2004), No. 5, pp. 406-410.
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Metallurgy

Activity model and its application in CaO-FeO-SiO2-MoO3 quarternary system

  • 通讯作者:

    Peimin Guo    E-mail: guo5538@sina.com

  • The activity model of CaO-FeO-SiO2-MoO3 quarternary system was established according to the coexistence theory of slag structure and the reduction thermodynamics of molybdenum oxide was discussed by applying this model. The activities of SiO2and MoOs decrease, while that of CaO increases with increasing the basicity of slag. Among SiC, [C] and [Si] reactants, the reducing capability of SiC is the strongest, while that of [C] is the poorest at a high temperature (about 1873 K). It is advantageous to increase the yield of molybdenum by increasing the content of [Si] or [C]. Controlling of basicity of slag can prevent the oxidation loss of molybdenum.
  • Metallurgy

    Activity model and its application in CaO-FeO-SiO2-MoO3 quarternary system

    + Author Affiliations
    • The activity model of CaO-FeO-SiO2-MoO3 quarternary system was established according to the coexistence theory of slag structure and the reduction thermodynamics of molybdenum oxide was discussed by applying this model. The activities of SiO2and MoOs decrease, while that of CaO increases with increasing the basicity of slag. Among SiC, [C] and [Si] reactants, the reducing capability of SiC is the strongest, while that of [C] is the poorest at a high temperature (about 1873 K). It is advantageous to increase the yield of molybdenum by increasing the content of [Si] or [C]. Controlling of basicity of slag can prevent the oxidation loss of molybdenum.
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