The internal oxides formed on Fe-31.1Mn-9.07Al-0.89C alloy at 750-850℃ in air with 2mg/cm^2 NaCl deposits initially were investigated by means of transmission electron microscopy. The results showed that the volatile species generated by hot corrosion accelerated internal oxidation in the internal voids. The alloys suffered severe subscale attack at 750℃ and 800℃because the protective alumina scale was not formed. The morphology of attacked subscale can be divided into three layers. The interconnecting voids in the outer subscale are finer and denser than those in the inner subscale. The products inside the voids of the outer subscale are metal oxides, while the oxides inside the voids of the inner subscale are filled with fine Fe3O4 particles. However, due to the formation of aluminum-rich oxide scale at 850℃, only a small amount of internal oxidation was generated in subscale, which showed the best corrosion resistance in this study.