The influence of TiO2 and Na2CO3 on the viscosity and crystallization behavior of mold powders

Mold powders are fluxing agents used as raw materials in the steel industry, which play very important role inprocessing stability and final surface quality of a product. surface quality depends particularly on the viscosity andthe heat transfer of infiltrated mold flux between the mold wall and the solidified steel shell. heat flux across theinterfacial gap depends on thermal properties of slag layer and its thickness, which is affected by slag propertiessuch as melting, crystallization behavior, and temperature-dependent viscosity. among all of the components ofthese powders, fluorine mainly controls the viscosity, solidification temperature and crystallization behavior ofmold flux films. however, the volatilization and acidification of the fluoride is a significant health hazard andcauses environmental pollution and intensifies the erosion to continuous caster. in this study, tio2 is used as asubstitution to fluorine in commercial start flux. the substitution possibility was examined by measuring theviscosity and crystallization behavior, when it was compared with the properties of industrial powder. in presentstudy, devitrification has been investigated by dta non-isothermal experiments. it has been shown that titaniumdioxide tends to increase crystallization temperature with increasing the formation of perovskite crystalline phaseand this causes a decrease in heat flux between the strand and the copper mold. on the other hand, slag viscositywas decreased with increasing titanium dioxide and na2co3 content. further xrd characterizations have provideda similar fraction of crystalline phases through riaz method in the industrial powder and low fluorine sample with8wt% tio2.