Three commercial Fe-Cr-Ni alloys including 310SS,253MA and 353MA were studiedat 850℃ in molten sodium chloride bath to investigate the corrosion mechanism and the effects of alloying elements on the hot corrosion morphology. The results showed that hot corrosion proceeds in two stages: an initial oxychlorination/chlorination, followed by electrochemical reactions. In the initial oxychlorination/chlorination period, oxide scales formed by oxychlorination were broken by chlorination. After the scales broke and peeled off, corrosion attack was dominated by electrochemical reactions. In the molten salt with low oxygen and high chlorine activity, chlorination and electrochemical reactions caused metal loss of the alloys and the occurrence of pitting in the alloy substrate near the alloy substrate-salt interface. The amount of voids increased with increasing chromium content in the alloys. The coalescence of voids resulted in falling off of metal flakes after long-term immersion. In this study, 310SS exhibited better corrosion resistance than 253MA and 353MA.