Titanium aluminide alloy has excellent high temperature strength. But its poor oxidation resistance restricts the application of this alloy at high temperature. In this article, high temperature oxidation and hot corrosion behavior of titanium aluminide (Ti3Al-Nb) was investigated and discussed. The experimental results reveal that increasing the content of Al and Nb in the alloy can improve the oxidation resistance. The oxidation resistance can also be slightly increased by small addition of Si or Cr. It is harmful to the oxidation resistance of the alloy by the addition of both V and Mo or Y (except at 900℃). The oxidation mechanism of Ti3Al-Nb alloy is diffusion-controlled. The effect on improving oxidation resistance by the addition of Nb is due to the fact that Nb can promote the growth of Al2O3 and make oxide layer more dense. The structure of oxide layer of Ti65Al25Nb10 alloy from the outer surface to the substrate are Al2O3+TiO2, TiO2 doped with small amount of niobium oxide, TiN and TiAl. TiN layer plays an important role on the growth of oxide layer. In the hot corrosion behavior, Na can destroy the protective feature of Al2O3 in the oxide layer and S may accelerate the oxidation reaction. Further research on the detailed oxidation and corrosion mechanism at high temperature is needed in the future.