The hot deformation behavior of powder metallurgical(PM) TiAl alloys was investigated on Gleeble-3500 thermomechanical simulator, at a temperature range of 1050–1200 °C with an interval of 50 °C and a strain rate range of 0.001–1.000 s~(-1). The results show that the flow stress of PM TiAl alloy is sensitive to deformation temperature and strain rate, the peak stress decreases with the increase in deformation temperature and decrease in strain rate, and dynamic recrystallization occurs during the hot compression. The deformation active energy was calculated and the flow stress model during high-temperature deformation was established based on the Arrhenius equations and Zener–Hollomon parameter. The deformed microstructure consists of refined homogeneous γ and ɑ_2/γ grains. The hot deformation behavior of powder metallurgical (PM) TiAl alloys was investigated on Gleeble-3500 thermomechanical simulator, at a temperature range of 1050-1200 ° C with an interval of 50 ° C and a strain rate range of 0.001-1.000 s ~ ( -1). The results show that the flow stress of PM TiAl alloy is sensitive to deformation temperature and strain rate, the peak stress decreases with the increase in deformation temperature and decrease in strain rate, and dynamic recrystallization occurs during the hot compression. deformation active energy was calculated and the flow stress model during high-temperature deformation was established based on the Arrhenius equations and Zener-Hollomon parameter. The deformed microstructure consists of strained homogeneous γ and ɑ_2 / γ grains.