In this study, the AIS 410 martensitic stainless steel was oxidized to form an iron or chromium rich oxide film. The latter has been considered to be protective in some corrosive environment. Through immersion tests, hydrogen permeation tests, and slow-strain rate tests (SSRT), it was found that the specimen oxidized at 300℃ for 20min was protective in 1 N H2SO4 or 0.6 M NaCl solutions and the elongation was increased in 0.6 M NaCl+10(superscript -2)M Na2S solutions under the SSRT. The oxide film also showed the retarding effect on hydrogen entry and reduced the hydrogen concentration in the metal substrate. It is suggested that those protective effects are due to some chromium-rich layer formed between the iron-rich oxide film and the metal substrate. After iron-rich oxide was etched by the corrosive solution, the chromium rich layer will face environments and show protective.