Medium-Entropy Super Austenitic Stainless Steel has great corrosion resistance, and it has superior mechanical properties than normal stainless steels. Therefore, it is expected to be widely used in marine engineering. However, it is not only the phenomenon of pure corrosion in real engineering applications. When the materials are applied to offshore components, especially in the splash zone with high oxygen concentration, the corrosion rate will be greatly increased. If it is simultaneously effected by waves, wind and seawater, the grain in the seawater generate frictional motion against the components, which will be effected by corrosion and wear. When this two degradation processes occur simultaneously, it is known as tribocorrosion. Tribocorrosion will greatly reduce the lifetime of the material, because wear accelerate corrosion, and corrosion also intensify wear. The synergistic effects can lead to total material loss far more than the sum of wear and corrosion alone. This study specifically analyzed and compared the tribocorrosion behaviors of three stainless steels, such as 304SS and S31254 and Medium-entropy austenitic stainless steel (MEASS). The corrosion resistance of the materials was measured by measuring the potentiodynamic polarization curve during the experiment procedure and the wear resistance of the materials was evaluated by using tribometer. The specimens after tribocorrosion would be analyzed by optical microscope, scanning electron microscope and surface profile. Moreover, the material loss rate was calculated during the experimental process for verification. The results indict that MEASS has the best corrosion resistance and tribocorrosion resistance than the others.