Microstructural instability with the precipitation of topologically close-packed (TCP) phases of an experimental nickel-based single-crystal superalloy has been investigated.A significant amount of σ phases are distinguished in the interdendritic region of the as-cast samples after thermal exposure at 900 ℃ for 1000 h.The σ phases are preferentially precipitated at the periphery of coarse γ/γ'eutectic,and their morphological evolution from needles to granules is observed.Microstructural analysis suggests that the local segregation of Cr and Ti at the periphery of coarse γ/γ'eutectic accounts for the formation of σ phases in the as-cast samples.After heat treatment with low solution temperature and short holding time,the dendritic segregation of alloying elements (i.e.,W,Re,Ti and Ta) and the volume fraction of γ'phase in the interdendritic region are similar to that of the as-cast samples.However,no TCP phases are present in the interdendritic region of the heat-treated samples after thermal exposure,which is primarily ascribed to the elimination of local segregation of Cr and Ti near the coarse γ/γ'eutectic.Moreover,small quantities of μ phases are precipitated in the secondary dendrite arm near the interdendritic region after thermal exposure,due to the increased volume fraction of γ'phase and the concomitant enrichment of W and Re in the γ matrix.