Microstructure and creep behavior of a new developed nickel-base single-crystal superalloy

A new developed nickel-base superalloy is employed to prepare single-crystal castings. The as-cast and heat-treated microstructure, the creep behavior in 900 degrees C/ 500MPa and 1100 degrees C / 140MPa are investigated. The dendrites are well developed in the as-cast microstructure. Segregation and precipitation morphology difference exist between dendrite core and / eutectic pool. After heat treatment the segregation is significantly decreased and the precipitations of all regions become much more uniform and cubic. Creep curves in varied conditions both present three stages, while the specimen in 1100 degrees C exhibits lower creep rate and longer life span. The fracture analysis shows that fracture style changes from mixed fracture to ductile when the temperature increases from 900 degrees C to 1100 degrees C. Porosity is the crack resource to form the facet, which is observed in both specimens. The precipitations raft in both specimens, while the further development of rafting is found in that of 1100 degrees C / 140MPa, as well as the surface recrystallization with coarser rafted / microstructure.