β₀ precipitation in α₂ lamellae of the β-solidifying multiple-phase γ-TiAl alloy

The precipitation behavior of β₀ particles in the α₂ lamellae of a β-solidifying multiple-phase γ-TiAl alloy, i.e., Ti-42.05Al-3.96Nb-1.01Mo-0.21B (at.%) alloys, was investigated using conventional transmission electron microscopy (TEM) and high-resolution transmission electron microscopy (HRTEM). It has been found that β₀ phase can precipitate in α₂ lamellae when aging-treated at 950–1150 °C for 6 h. This is a process controlled by diffusion of Mo element. The β₀ precipitates nucleate initially at the α₂/γ lamellar interfaces and grow firstly along the α₂ lamellar width direction then along the length direction. The lamellar spacing of α₂ lamella and growth stage of β₀ precipitates codetermined the morphologies of β₀ precipitates. All β₀ phases precipitated from α₂ matrix follow the Burgers OR: 101_β0//0001_α2,1¯11_β0//112¯0_α2, and the interface dislocations between α₂/β₀ interfaces are commanded to accommodate the lattice misfit. Besides, the decomposition of α₂ → γ also occurs during the aging treatments. The α₂/γ interface ledges promote the nucleation of β₀ phase, but the precipitated β₀ particles at the α₂/γ ledges impede the α₂ → γ transformation. The coordination of α₂ → β₀ and α₂ → γ transformations is influenced by the aging temperature. When the aging temperature is 1150 °C, the amount of β₀ precipitation in α₂ lamellae up to the maximum.