Evolution mechanisms of the primary α and β phases during α/β deformation of an α/β titanium alloy TC8

Abstract

A TC8 titanium alloy was isothermally compressed at the strain rates of 10–50s−1 in the two-phase region of 820–940°C, and the evolution mechanisms of the primary α and β phases, including grain morphology, dynamic recovery (DRV) and dynamic recrystallization (DRX), were investigated by optical microscopy (OM) and transmission electron microscopy (TEM). OM reveals that the phase content and grain morphology are more significantly influenced by the deformation temperature than the strain rate. The β grains achieve refinement only at 940°C due to DRX in the β phase. TEM reveals the remarkable variations of the DRX grains, subgrains, sub-boundaries and dislocations morphology with temperature and strain rate related to DRV and DRX in the primary α phase. The DRX in the primary α phase appears most strongly at a middle temperature of 860°C, and DRV dominates in the primary α phase at 940°C. While the dominant mechanism varies from DRV to DRX in the β phase as the temperature increases. Finally, the influence mechanism of deformation parameters on the primary α grain morphology is revealed based on the combined effect of DRV and DRX in the primary α phase and diffusion of the β phase.