Abstract
The evolution of the microstructure of single crystals of a nickel-based superalloy during high temperature (1323 K, 1050°C) creep in bending has been studied. Bending provides both tensile and compressive stress gradients; consequently the effects of varying stress conditions on the evolution of the morphology of the γ′ precipitates can be determined from a single specimen. The morphological changes were analysed by scanning electron microscopy using image analysis techniques and by transmission electron microscopy, then described by dimensionless parameters. We discuss the dependence of the morphological changes in the superalloy on the stresses acting in the sample (magnitude and sign). We also discuss the driving mechanisms for the observed morphological changes.
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