aDepartment of Materials Engineering, FAENQUIL, P.O. Box 116, 12600-970 Lorena, Brazil
bMax-Planck-Institut für Eisenforschung, Max-Planck Strasse 1, D-40237 Düsseldorf, Germany
Abstract:
The primary recrystallization of a 1 0 0-fiber textured coarse-grained oxide dispersion strengthened nickel-based superalloy (PM-1000) has been investigated by high-resolution electron backscatter diffraction. The annealing behavior of this alloy is quite complex. Even at high annealing temperatures (e.g. 1200 °C), recrystallization is only partial. The microstructure of this superalloy in the annealed state consists of a blurred subgrain structure, coarse grains with sizes of about 10–20 μm at the pre-existing grain boundaries and a significant fraction of small crystals in the interior of the recovered grains. These small grains are elongated and display anisotropic growth. In the present paper we present a detailed explanation for this peculiar microstructure. Particular focus is placed on the origin of the new grains in the recovered structure in a 1 0 0]-oriented grain.