Laboratory "steel-slag" equilibrium experiments at 1873 K (1600 degrees C) were conducted to study the effects of basicity (CaO/SiO2) and the C/A ratio (CaO/Al2O3) in CaO-SiO2-Al2O3-MgO slag on the inclusions in Si-Mn-deoxidized 430 stainless steels. A thermodynamic analysis was performed to predict the transformation of the chemical composition of the inclusions. A mathematical model was introduced to describe the inclusion behavior at the liquid "steel-slag" interface and predict the removal of oxide inclusions during slag refining The results showed that increasing slag basicity (R) from 1.0 to 5.0 lowered the total oxygen content (T.O) from 0.0070 to 0.0038 mass pct and dissolved [O] content in steel from 0.0013 to 0.0008 mass pct, and led to the formation of inclusions with high Al2O3 content, while increasing the C/A ratio from 0.7 to 2.5 had little effect on the steel cleanliness. The values of both log X(Al2O3)(i )and log X-cr2O3(i) center dot X-SiO2(i)/X-Al2O3(i) center dot X-MnO(i) were positively correlated with that of log a(Al2O3)(s) center dot a(MnO)(s)/aSiO2s center dot a(Cr2)(s) O-3, indicating that the activity ratio of the slag components directly affected the concentration of the inclusions. The separation was less than 90 pct for all inclusions with a diameter of 5 mu m for different refining slags. The experimental results and prediction of the mathematical model for inclusion removal after slag refining were in reasonable agreement.