The dissolution kinetics of dense alumina discs in calcium aluminosilicate
based melts was determined with a rotating disc technique at 1560 degreesC
to 1590 degreesC, under a controlled atmosphere of Ar-CO-CO2. The effects o
f rotation speed and the concentration of iron and manganese oxides on the
dissolution rate of alumina into slags were measured by monitoring the conc
entration of species in the slag. Analysis of the results obtained indicate
d that at low concentrations of these transition metal oxides in 53 pct CaO
-5 pet MgO-12 pet SiO2-30 pet Al2O3 slags, the dissolution rate is most lik
ely controlled by mass transfer in the slag phase. The rate data obtained a
lso showed that the addition of iron oxide or manganese oxide results in co
nsiderable increase in the mass transfer by increasing the apparent diffusi
vities of species in the slag. Comparison of these results with published d
ata on the diffusivities of species in similar slags are made and practical
implications of the findings are briefly discussed.