Abstract
Thermosolutal convection during solidification of alloys is one of the major causes of macrosegregation. An experimental investigation was carried out on lead–tin alloys to study the evolution of macrosegregation during vertical solidification in laboratory. The emphasis was on accurate measurements of temperatures during solidification as well as segregation measurements and microstructural examination of solidified samples. The nominal compositions of ingots were Pb–35% Sn, Pb–19 wt% Sn and Sn–15 wt% Pb. Experiments were carried out at two superheats and different cooling rates. With decreasing cooling rate, increase in axial macrosegregation was observed in lead rich alloys. No macrosegregation was observed in tin rich alloys. Convection of interdendritic liquid was found to be responsible for macrosegregation. Also, from experimental data, heat flux to cooling water, local solidification times in the melt as well as dendritic arm spacings were determined.
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