Growth of Initial Clog Deposits during Continuous Casting of Ti-ULC Steel – Formation and Reduction of the Initial Deposits at Nozzle/Steel Interface

抄録

In order to elucidate a nozzle clogging mechanism during continuous casting of Ti-ULC (Ti containing Ultra Low C) steel, a series of experiments employing a rotating finger method was employed. In the context of the carbothermic generation of CO – oxidation of Ti-ULC steel at the interface between the nozzle and the liquid steel – reduction of Fe_tO in the oxidized product composed of Fe_tO–Al₂O₃–TiO_x (“FAT”) by the liquid steel, the FAT was intentionally coated on usual nozzle refractories (“CZ”). It was found that the refractory components (CaO, ZrO₂, SiO₂) rapidly dissolved into the FAT. The Fe_tO in the FAT was rapidly reduced by Al and Ti in the Ti-ULC steel. As a result, reduced Fe metallic droplets mixed with CaO–Al₂O₃–TiO_x–ZrO₂–SiO₂ oxide were found as the clog deposit. This was in good agreement with the previous reports. In case of pure liquid Fe, the Fe_tO was not reduced but remained in the deposit. A likely reaction mechanism for the growth of the initial clog deposit was proposed.

Reduced Fe droplet found in the deposit of the sample No. 2: (a) a Fe droplet surrounded by various oxide phases, (b) an enlarged image at the surface of the droplet, and (c) EDS elemental line analysis. (Online version in color.)