To study the erosion degradation rule of the concrete member under different chloride ion erosion conditions, the chloride ion immersion tests for the flexural-tensile concrete member and salt spray tests for non-stress concrete member were carried out. Based on the test results of chloride mass fraction, flexural-tensile strength and flexural-tensile strain of concrete member, the effects of erosion time, environmental temperature, stress level, environmental chloride ion mass fraction and erosion pattern on the diffusion rule of chloride ion and flexural-tensile strength of concrete members were studied. The results show that, the chloride ion mass fraction in soaking environment is higher than that in salt spray environment; the chloride ion mass fraction increases with the erosion time, environmental temperature, chloride ion concentration and stress level; the diffusion coefficient increases with the increasing of the stress level and temperature; under the condition of lower stress level, lower temperature and shorter erosion time, the ultimate flexural-tensile strength of concrete members has a slight upward trend, and then it decreases with erosion time; the ultimate flexural-tensile strain of concrete members decreases while the influence factors increase. The results provide a theoretical base for the durability assessment and design for concrete member under chloride ion erosion environmental and have some practical values.