Thermodynamic Calculation on the Reactivity Between Slag and Ti-Stabilized Stainless Steel

During the continuous casting (CC) process of Ti-Stabilized Stainless Steel, the nozzle clogging or even the crusts composed of TiN, Al2O3, TixOy and the complex inclusions MgO
Al2O3, Al2O3 is often occurred. The main objective of the present study is to research the reaction between refining slag or mold flux and Ti-Stabilized Stainless Steel by thermodynamic calculation. A suitable refining slag composition was sought to absorb Al2O3, Tix Oy inclusions, and the reactions between different mold flux and steel was calculated and compared. It was found that a suitable refining slag was difficult to adjust aluminum and titanium to meet requirement simultaneously. The target refined slag is composited of 3–8.7% SiO2, 56–59% CaO, 33–38% Al2O3 and 4% MgO with low melting point and high absorption capacity of inclusions for in the refining of the 321 stainless steel. SiO2, Fe2O3, Na2O and B2O3 of mold flux would react with titanium in the steel. The CaO–SiO2 based mold flux had a strong reactivity than CaO–SiO2–Al2O3 and CaO–Al2O3 based mold flux.