Comparative study of the segregation behavior and crystallographic orientation in a nickel-based single-crystal superalloy

Abstract

The segregation behavior and crystallographic orientation of a nickel-based single-crystal CMSX-6 superalloy produced by the downward directional solidification process have been investigated. The results were compared with those in the Bridgman process. In comparison to the Bridgman process, the fluctuations in the concentrations of Al, Ti, Ta, Co, Mo and Cr became smaller along the path from the dendrite lobe through the interdendritic region to the adjacent dendrite lobe. This suggests that the degree of the segregation of these alloying elements was reduced by using the DWDS process. In addition to this, the angle between the dendrites' preferred growth direction and the heat flow direction in the DWDS cast samples, and the splaying region were smaller than those in the Bridgman solidified samples. This indicates that better crystal orientation can be obtained in nickel-based single-crystal superalloy components by using the downward directional solidification process.