Etch pit and γ′ precipitate evolution in controlled Waspaloy microstructures aged at 725, 800 and 875 °C

In this paper, controlled microstructures of Waspaloy were produced with the objective of studying the kinetic mechanisms that drive microstructural evolution during short-term aging. Three individual sets of controlled microstructures were produced by an initial solution-treatment at 1145 °C followed by aging-treatments at 725, 800 and 875 °C for times up to 263.5 h. The resulting microstructures varied markedly from one aging set to the next. The three sets of aged specimens were systematically characterized via microscopy (SEM and AFM), DC four-point probe resistivity and X-ray diffraction techniques. The occurrence of perfect polygonal etch-pit shapes in the solution-treated microstructures, which transformed upon aging first into corner-rounded shapes, followed by irregular shapes and eventual dissolution, was evidenced here. This phenomenon of transformation of etch-pit shapes appears to occur concurrently with gamma prime nucleation and growth. The formation mechanism of the etch-pits and subsequent microstructural evolution upon aging are discussed herein.