The morphological evolution of γ' precipitates during coarsening at 640 ℃ under applied compressive stress in the range 0-150 MPa was investigated in a monocrystalline Ni-Al alloy containing nominally 13.36 at. Al. The strain was primarily elastic. The microstructures were examined by transmission electron microscopy, primarily in the section (100) perpendicular to the applied stress. The aspect ratio of a γ' precipitate, as well as a shape parameter which provides a measure of how cuboidal it is, were used to characterize the γ' morphology. As the stress increases precipitates of a given size generally tend to become more non-equiaxed and their interfaces are more planar, though this depends on the γ' volume fraction. The applied compressive stress also promotes the coalescence of γ' precipitates. This tendency is more pronounced the higher the γ' volume fraction and appears to be its main influence on directional coarsening during elastic deformation.
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