Abstract:By means of creep properties measurement and microstructure observation, the influence of cavity morphology on the creep behaviors of a single crystal nickel-base alloy was investigated. Due to the cavity with or without cracks exists in the as-cast superalloy, the stress distribution near the cavity with or without cracks during high temperature creep was analyzed by finite elements analysis method (FEM), and the influence of the stress distribution near the cavity regions on the creep behaviors and microstructure evolution of the superalloy was discussed according to the feature of the stress distribution near the cavity. The results show that, during high temperature creep, the stress distribution near the cavity with or without cracks has an obvious effect on the morphology of the rafted γ¢ phase in the superalloy, the maximum stress value which appears in two sides of the cavity with or without cracks may promote the initiation and propagation of the cracks along the direction vertical to the applied stress axis. Compared with the crack-free cavity, the bigger stress value appears in two sides of the cavity with cracks which propagates easily as creep goes on, this is the main reason resulting in the alloy with shorter creep lifetime.

Key words: single crystal; nickel-based superalloys; cavity morphology; FEM analysis; stress distribution; creep lifetime