Influence of long-term aging on microstructural stability and performance of DD6 superalloy

Abstract

In order to investigate the deterioration of microstructure in service, the intrinsic microstructural stability and performance of DD6 during long-term aging without an external load are investigated. During aging at 980°C, γ′ rafting in 〈100〉 and 〈010〉 directions show no anisotropy due to small driving forces. γ′ coarsening and rafting lead to a monotonic decrease in hardness between 200 and 1000 h. However, precipitation of topologically close-packed (TCP) phases occurs significantly during aging at 1050°C. The amount of TCP phases increases initially, and then almost saturates, which results in a decrease in hardness. However, owing to the reduction in the growth of the TCP phases and coarsening of γ′, the hardness saturates for an aging time greater than 500 h.