Morphology and mechanisms of the formation of fiber structures upon high-temperature superplastic deformation of aluminum alloys

The morphology of fiber structures has been studied and the kinetics of their formation and growth at high homological temperatures upon superplastic deformation of the AMg6 and 1420 aluminum-based alloys containing viscous liquid-phase inclusions at the intercrystalline boundaries has been proposed. It has been found that, according to their morphology, the fiber formations can be divided into two types, namely, thin smooth cylindrical fibers and fibers whose specific feature is the presence of one or several droplike formations on their surface. The surface of fibers and grain edges to which the fibers are connected is strongly oxidized; the atomic concentration of magnesium in various regions of fibers and grains is different and is higher than that in the specimen as a whole. It was shown that the fibers were formed upon pore and crack opening as a result of viscous flow of solid-liquid material which is present at the intercrystalline boundaries.