Abstract
The addition of carbon in TiAl alloys can improve the mechanical properties by precipitate hardening through the perovskite Ti3AlC carbide. Usually precipitates coarsen during continuous annealing. However, in the Ti-45Al-5Nb-0.75C alloy a splitting of the perovskite carbides was observed in later stages of annealing. By investigation with transmission electron microscopy the details of this splitting process are revealed after annealing at 900 °C. The results show that the re-orientation of the γ phase regions between sub-particles is associated with the splitting step from carbide needles into small sub-particles. γ domains with a different orientation with respect to the γ matrix nucleate and gradually replace the γ matrix phase in regions between the carbide sub-particles. The progress of the splitting process is locally different in different carbides and also in one individual carbide. By increasing the temperature from 800 to 900 °C the growth of the emerging carbide conglomerates and the splitting process of the carbides are greatly accelerated. It is found that both are diffusion-controlled processes.