Densification and microstructural evolution of a high niobium containing TiAl alloy consolidated by spark plasma sintering

Gas-atomized Ti-45Al-7Nb-0.3W alloy powders were consolidated by the spark plasma sintering (SPS) process. The densification course and the microstructural evolution of the as-atomized powders during SPS were systematically investigated by scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray diffraction (XRD) and electron back-scattered diffraction (EBSD) techniques. As a result of SPS densification, special (alpha + gamma) precipitation zones are formed in the initial stage of sintering, and the residual beta phases in the microstructure of the powders are fragmentated. During the following SPS course, alpha(2)/gamma lamellar colonies at the edge of the precipitation zone, alpha(2) and B2 phase as well as dynamic recrystallized gamma grains are found to form. For the as-atomized powders sintered at 1000 degrees C, the densification is preceded by the early rearrangement of the powder particles and the following formation of sintering necks. For the powders sintered at 1200 degrees C, plastic deformation plays an important role in densification. Local melting and surface bulging between two adjacent particles can also serve as one of the densification mechanisms. In the later stage of sintering, the growth of sintering necks controlled by diffusion and the pore closure would make important contributions to the densification. (C) 2015 Elsevier Ltd. All rights reserved.