材料期刊网

采用XPS分析钢筋经模拟混凝土孔隙液浸泡后表面膜的化学组成, 结合线性极化法和动电位扫描阳极极化曲线测试, 研究钢筋在模拟混凝土孔隙液中表面膜化学组成与腐蚀电化学行为的关联. 结果表明:钢筋在纯模拟液中处于钝化状态. 在含Cl^-和不同pH值的模拟混凝土孔隙液中,随着Cl^-浓度的增加和pH值的降低, 钢筋的腐蚀电位负移, 电流密度增大;钢筋表面钝化膜Fe²⁺的含量增加, Fe³⁺的含量减少.当模拟液中外加Cl^-浓度达0.6 mol/L或pH值降至11.31时,钢筋表面不发生钝化, 但加入0.24 mol/L NaNO₂缓蚀剂后又可使钢筋钝化从而抑制腐蚀.

It is well known that reinforcing steel in concrete can be protected from corrosion by forming a compact passive film on its surface in a concrete pore solution with high alkalinity. The corrosion behavior of the steel is related to its passivation and depassivation. The pH value and the Cl⁻ concentration in a concrete pore solution are of the most important parameters affecting the passivity of reinforcing steel in concrete. In the present work, XPS analysis, linear polarization and potentiodynamic anodic polarization tests were used to study the relationship between the electrochemical corrosion behavior of reinforcing steel immersed in a simulated concrete pore solution and the chemical composition of the steel surface film. The results showed ht with the increase of the Cl⁻ concentration or the decrease of the pH value in the solution, the corrosion potential of the steel shifted negatively and its corrosion current density rose, and the Fe²⁺ content of the steel surface film increased and the Fe³⁺ content decreased. The steel was in an active state in the solution with Cl⁻ concentration higher than 0.6 mol/L or pH lower than 11.31, and the addition of 0.24 mol/L NaNO₂ to the solution could protect steel from corrosion.