This investigation aimed to determine the in plant feasibility of decreasin
g, to an amount close to the minimum literature value, the calcium addition
to liquid steel for prevention of alumina buildup during continuous castin
g. Six plant trials were carried out at calcium additions of 0.14 kg/t of s
teel (reduced from the original 0.19 kg/t), added to the second ladle of a
two or three ladle sequence. Total oxygen samples were taken at the ladle f
urnace and tundish to determine total oxygen and nitrogen contents of the s
teel. The total oxygen content at the ladle furnace varied between 19 and 2
6 ppm, with a slight degree of reoxidation between the ladle furnace and th
e easter. Alumina clogging was successfully prevented by the addition of 0.
14 kg calcium/t of steel during the first five trials. During the sixth tri
al the submerged entry nozzle (SEN) failed and, although the stopper behave
d as if clogging occurred, this behaviour was caused by the poor perfomance
of the SEN rather than actual clogging. Microanalysis of inclusions in ste
el samples revealed a distribution in degrees of modification between diffe
rent inclusions, and the formation of a substantial amount of CaS (which is
taken to indicate overmodification, based on equilibrium calculations). Ho
wever, the CaS is mostly associated with at least partly liquefied oxide in
clusions, which is likely to reduce the potential clogging effect of solid
CaS. (C) 2000 IoM Communications Ltd.