The morphological evolution of the γ’ phase in nickel-based superalloy жc6y during various solution heat treatments was investigated. The significant changes of the γ’ precipitates were observed in the solution-treated samples. The coarsening and dissolution of γ’ phase simulta-neously occurred at intermediate temperatures. In some areas, the primary precipitates became blunt and the adjacent ones were intercon-nected with each other via a diffuse neck, indicating a coarsening process of the primary γ’ population. The coarsening was dominated by the precipitate agglomeration mechanism (PAM) rather than by the well-known Ostwald ripening mechanism. In other areas, the partial dissolu-tion of the γ’ precipitates began to occur, spreading gradually from dendrite cores to interdendritic regions. In addition, a flower-like γ’ struc-ture was developed during the subsolvus solution treatments. The observable long filaments composed of erraticly shaped precipitates were caused by the heterogeneous nucleation of the cooling precipitates during water quenching. The morphological evolution of the γ ’phase in nickel-based superalloy жc6y during various solution heat treatments was investigated. The significant changes of the γ’ precipitates were observed in the solution-treated samples. The coarsening and dissolution of γ ’phase simulta-neously occurred at intermediate temperatures. In some areas, the primary precipitates became blunt and the adjacent ones were intercon-nected with each other via a diffuse neck, indicating a coarsening process of the primary gamma ’population. The coarsening was dominated by the precipitate agglomeration mechanism (PAM) rather than by the well-known Ostwald ripening mechanism. In other areas, the partial dissolu- tion of began to occur, spreading gradual from dendrite cores to interdendritic regions. In addition, a flower-like gamma ’ struc-ture was developed during the subsolvus solution treatments. The observable long filaments composed of erraticly shaped precipitates were caused by the he terogeneous nucleation of the cooling precipitates during water quenching.