Based on its excellent tensile strength-ductility property combination,twinning-induced plasticity (TWIP) steel shows great potential in applications for structural components in automobile industry.The aim of this research is to investigate the corrosion resistance properties and corrosion mechanism under room temperature in TWIP steel.The influence of the deformation twin density on corrosion property was primarily considered by salt spray test.The specimens used in the investigation are as-annealed and as-deformed respectively.The microstructure and corrosion resistance property were characterized by scanning electron microscope (SEM),optical microscope (OM) and so on.There are some annealing twins distributed randomly in austenitic grains in the as-annealed specimen.After the specimen was subjected to tensile experiment,the density of the deformation twins increased sharply,which are different from the annealing twins in size and morphology.It was found that the corrosion potential of the as-annealed is lower than that of the as-deformed and the corrosion current density behaves contrarily.After immersed in 5% NaCl solution salt spray for 48h,the as-deformed showed a bit better than the as-annealed in corrosion resistance.With the time prolonged,the gap between the two specimens in corrosion resistance increased rapidly.The corrosion morphologies varied in color and shape.Further investigation,carried out by SEM and EDS,indicated that as-annealed and the as-deformed followed pitting corrosion and uniform corrosion mechanism respectively.The reason for the difference in corrosion mechanism is possibly the presence of the deformation twins.The deformation twins formed during the tensile test refine grains by way of segmentation.The twin boundaries largely belong to the coincidence site lattice (CSL),which is on lower energy state.It suggests that the twins not only play a role in strengthening,but also improve effectively the corrosion resistance in TWIP steel. Based on its excellent tensile strength-ductility property combination, twinning-induced plasticity (TWIP) steel shows great potential in applications for structural components in automobile industry. AIM of this research is to investigate the corrosion resistance properties and corrosion mechanism under room temperature in TWIP steel. The influence of the deformation twin density on corrosion property was first considered by salt spray test. The specimens used in the investigation are as-annealed and as-under respectively. Microstructure and corrosion resistance property were characterized by scanning electron microscope ( SEM), optical microscope (OM) and so on. There are some annealing twins distributed randomly in austenitic grains in the as-annealed specimen. After the specimen was subjected to tensile experiments, the density of the deformation twins increased sharply, which are different from the annealing twins in size and morphology .It was found that the corrosion potential of the as-annealed is lower than that of the as-deformed and the corrosion current density behaves contrarily. After immersed in 5% NaCl solution salt spray for 48h, the as-deformed showed a bit better than the as-annealed in corrosion resistance .With the time prolonged, the gap between the two specimens in corrosion resistance increased rapidly. The corrosion morphologies varied in color and shape. Fluorrther investigation, carried out by SEM and EDS, indicated that as-annealed and the as-deformed followed pitting corrosion and uniform corrosion mechanism respectively. reason for the difference in corrosion mechanism is. the reason the difference of corrosion mechanism is possibly the presence of the deformation twins. deformation of twins formed during the tensile test refine grains by way of segmentation. ), which is on lower energy state. It suggests that the twins not only play a role in strengthening, but also improve effectively the corrosion resistance in TWIP steel.