Slags in Production of Manganese Alloys
The paper analyses the equilibrium partitioning of manganese and silicon between slag and alloy during the production of high carbon ferromanganese (HC FeMn) and silicomanganese using FACTSage software. The results of this modeling are compared with industrial and experimental data and used to elucidate the nature of the reduction processes. In production of HC FeMn, molten slag co-exists with a monoxide phase (Ca,Mg,Mn)O in which MnO is the major constituent. Analysis of industrial data shows that slag and monoxide are close to equilibrium, but manganese slag-metal partitioning is far from equilibrium. It is evident that the rate of MnO reduction from the slag is slower than the rate of MnO dissolution into the slag. A previous laboratory study confirmed that MnO reduction from HC FeMn slag is slow and that equilibrium is not reached. In the production of silicomanganese, the charge consists of manganese ore, ferromanganese slag, quartzite and fluxes. Excavation of industrial furnaces has revealed the presence of quartzite in the reaction zone, so there are four condensed phases in the reaction zone; molten slag, molten silicomanganese alloy, quartzite and coke. FACTSage modeling showed that during the production of silicomanganese, manganese and silicon partitioning between the metal and slag is close to equilibrium at 1600oC. The concentration of silica in silicomanganese slags is much lower than the silica-saturation value. It can be concluded that the reduction of silica from these slags is faster than the dissolution of quartzite into the slag.
reduction slag equilibrium ferromanganese silicomanganese
Oleg OSTROVSKI Douglas SWINBOURNE
School of Materials Science and Engineering, The University of New South Wales, Sydney, 2052, Austra School of Civil, Environmental & Chemical Engineering, RMIT University, Victoria 3001, Australia
国际会议
Ninth International Conference on Molten Slags,Fluxes and Salts(第九届国际熔渣、溶剂与熔盐学术会议 MOLTEN12)
北京
英文
1-9
2012-05-27(万方平台首次上网日期,不代表论文的发表时间)