Effects of W and Mo additions on wet-dry acid corrosion behavior of low-alloy steels under different O_2 concentrations were investigated. The results showed that W and Mo-containing steels presented excellent wet-dry corrosion resistance under O_2 concentrations of both 1 and 5%. The roles of W and Mo played in increasing corrosion resistance of the steels were different. W could improve the thermodynamic stability of the steel substrate, while Mo could promote the formation of protective rust. Interaction between W, Mo and O_2 concentration greatly influenced wet-dry acid corrosion of low-alloy steels. W addition was more effective for depressing charge transfer process at the rust/substrate interface and presented higher enhanced effect on increasing corrosion resistance than Mo under O_2 concentration of 1%.Mo was more effective on increasing rust compactness and showed higher enhanced effect on increasing corrosion resistance than W under O_2 concentration of 5%. Effects of W and Mo additions on wet-dry acid corrosion behavior of low-alloy steels under different O_2 concentrations were investigated. The results showed that W and Mo-containing steels presented excellent wet-dry corrosion resistance under O_2 concentrations of both 1 and 5 %. The roles of W and Mo played in increasing corrosion resistance of the steels were different. W could improve the thermodynamic stability of the steel substrate, while Mo could promote the formation of protective rust. Interaction between W, Mo and O_2 concentration greatly influenced Wet-dry acid corrosion of low-alloy steels. W addition was more effective for depressing charge transfer process at the rust / substrate interface and presented higher enhanced effect on increasing corrosion resistance than Mo under O 2 concentration of 1%. Mo was more effective on increasing rust compactness and showed higher enhanced effect on increasing corrosion resistance than W under O2 concentration of 5%.