This study focuses on the corrosion rate of 304L stainless steel with various surface conditions under crevice corrosion situation. 304L stainless steel specimens with both polished and machined surfaces were firstly covered with a crevice former; then they were keep in a relative humidity condition of 50% at a temperature of 50℃, of which were examined subsequently 100, 400, 700, and 1000 hours. Corrosion areas and maximum corrosion depth were measured and observed by confocal laser scanning microscope and scanning electron microscopy. Moreover, the weight loss and weight gain were measured. The results of EDX show the initiation of corrosion is similar to the mechanism of pitting, which initiated from the boundaries of MnS inclusions and steel. Below the cover of crevice former, the surface is covered by oxide products which contain chlorine and trace amounts of sulfur. It shows the metal matrix is dissolved by the synergistic effect of sulfur and chloride ions, which enlarge the corrosion areas.