Microstructure evolution of a forged TiAl-Nb alloy during high-temperature tensile testing

A forged TiAl-Nb alloy was investigated by means of measurements of properties related to performance at high temperatures, and the microstructure was observed by scanning electron microscopy (SEM) with electron backscattering diffraction (EBSD) and transmission electron microscopy (TEM). The brittle-ductile transition temperature of the alloy was between 800 degrees C and 820 degrees C. The alloy had high strength in the brittle stage, and the main deformation mechanisms of the alloy were dislocation movement and dynamic recovery (DRV) in the gamma phase. In the ductile stage, the alloy had good deformation ability and the main deformation mechanism of the alloy was continuous dynamic recrystallization (CDRX) in gamma phase and alpha 2 phase, the integrity of the lamellar colonies was destroyed. At the same time, the phase transformation occurred.

Automated summary

The high temperature performance and microstructure of a forged TiAl-Nb alloy were investigated. The alloy exhibited a brittle-ductile transition temperature between 800°C and 820°C. It had high strength in the brittle stage and the main deformation mechanisms were dislocation movement and dynamic recovery. In the ductile stage, the alloy showed good deformation ability with continuous dynamic recrystallization as the main deformation mechanism, resulting in the destruction of the lamellar structure.