Abstract:Based on the thermodynamic analyses of the reactions of ferric oxide(Fe2O3) with sodium carbonate, calcium oxide and calcium silicates, respectively, the thermodynamic of those reactions was determined. The results show that ferric oxide can react with sodium carbonate and calcium oxide respectively, but be more likely to react with calcium oxide to form calcium ferrite in the industrial sintering temperature range. Ferric oxide and sodium ferrite(Na2O∙Fe2O3) can transform 2CaO∙SiO2 and 3CaO∙2SiO2 into CaO∙SiO2, and CaO∙SiO2 can further react with Na2O∙Al2O3 or sodium ferrite to form insoluble ternary compounds, which results in the loss of sodium oxide and alumina during the alumina production by the sintering process. Calcium ferrite aluminate (4CaO∙Al2O3∙Fe2O3) can not form from the reaction of calcium ferrite(CaO∙Fe2O3, 2CaO∙Fe2O3) and sodium aluminate but rather is the direct product of the reaction of calcium oxide, alumina and ferric oxide. And calcium ferrite aluminate can be decomposed by sodium ferrite under the condition of sintering.

Key words: bauxite; sinter; sintering; Fe2O3; thermodynamics