Microstructural properties of superalloys investigated by nanoindentationsin an atomic force microscope

The microstructure of nickel-base superalloys with differently shaped gamma ' precipitates determines their excellent high-temperature behaviour. A rel iable quantitative determination of volume fraction and particle size distr ibution (PSD) of these precipitates is difficult, since the size of the pre cipitates is often below 100 nm. With an atomic force microscope (AFM), sec tions through specimens are analysed with a resolution in the nanometre ran ge, which allows a quantitative determination of the gamma' volume content and PSD for different superalloys. Thus, determined volume fractions for th e gamma' phase in the superalloys CMSX-6 and Waspaloy amount to 56% and 27% , respectively. A combination of an AFM with a nanoindentation system also allows the measurement of local mechanical properties such as hardness and elasticity. These quantities are determined for the first time directly on the superalloys CMSX-6 and Waspaloy for the gamma' and matrix phases, separ ately. The gamma' phase in both alloys shows a significantly higher but dif ferent hardness than the matrix phase, whereas the moduli of elasticity are similar. A depth dependence of the hardness was found for very small inden tations. (C) 1998 Acta Metallurgica Inc. Published by Elsevier Science Ltd. All rights reserved.