Structure and elastic property of nanosized complex oxide particles in ferritic/martensitic alloy: An electron energy-loss spectroscopy study

The structure and elastic property of nanosized complex oxide particles in a ferritic/martensitic alloy containing titanium and silicon were studied by transmission electron microscopy (TEM) and electron energy-loss spectroscopy (EELS). The nanosized complex Y-Si-O particles were found in the matrix of the alloy in addition to Y-Ti-O, and the size of Y-Si-O is smaller than that of Y-Ti-O particles. The formation of Y_2.16Si_1.76O₇ and Y_2.15Ti_1.95O₇ were further confirmed by O K, Si L_2,3 and Ti L_2,3 edges, respectively. The bulk modulus of Y_2.16Si_1.76O₇ was shown to be lower than that of Y_2.15Ti_1.95O₇, which implies that the nanosized Y_2.16Si_1.76O₇ particles would provide more effective dislocation pinning at elevated temperatures.