Abstract:The oxidation reaction of molybdenum and reduction reaction of molybdenum trioxide were discussed, and the effect of the addition of molybdenum oxide on AOD process and the component of liquid steel was also investigated. The subsequent research was focused on the volatilization of molybdenum oxide which had a serious impact on the recovery of molybdenum. Finally, thermodynamic analysis of “decarburization and molybdenum conservation” and “decarburization and chromium conservation”was accomplished. The direct alloying of molybdenum oxide in AOD is completely feasible, additional reducing agent and fixative agent, however, should be added to AOD, together with molybdenum oxide for higher recovery of molybdenum and better stainless steel.
马登,郭培民, 庞建明, 赵沛. AOD炉中氧化钼直接合金化冶炼不锈钢的热力学分析[J]. 钢铁, 2014, 49(5): 19-23.
MA Deng,GUO Pei-min,PANG Jian-ming,ZHAO Pei. Thermodynamic Analysis on Direct Alloying of Molybdenum Oxide for Stainless Steel in AOD Furnace. Iron and Steel, 2014, 49(5): 19-23.