The effect of inclusions on pitting corrosion susceptibility of 201 and 444 stainless steels (SSs) were explored. Due to the difference in their chemical compositions, both SSs contains different types of inclusions. In 201 SS which had relative high manganese content, the main inclusions were manganese sulfide and oxides. In the titanium-containing 444 steels, the main inclusions are titanium nitride and aluminum oxide. The potentiodynamic polarization curves measured in NaCl aqueous solution showed that 444 SS exhibited a higher pitting nucleation potential than that of 201 SS. Potentiostatic tests at a potential slightly higher than their respective pitting nucleation potentials followed by scanning electron microscopical observation were conducted. The experimental results showed that sulfide inclusions were the pitting corrosion initiation sites in 201 SS, while pitting corrosion occurred mainly around titanium nitride and/or aluminum oxide inclusions in 444 SS. The results demonstrated that 444 SS was more resistant to pitting corrosion than 201 SS.