Research on citric acid passivation parameters and corrosion resistance performance of SCM435 steel for fasteners

In this study, citric acid is used to passivate SCM435 steel, which can be regarded as an ideal anti-corrosion solution in the field of ship engineering. The experiment focused on investigating the effects of citric acid dosage, hydrogen peroxide concentration, passivation temperature and time on the surface morphology and corrosion resistance of the passivation film. The results show that the optimal citric acid passivation process is: 15 wt% citric acid, H₂O₂ 16 wt%, passivation temperature of 40 °C and treatment time of 50 min (F4). After the F4 treatment, a large number of dense and uniform irregular particles formed on the surface of SCM435 steel. The chromium content in the passivation layer is significantly higher than that of the substrate, while the iron content is comparatively lower. Moreover, a passivation film of Cr/Fe oxides or hydroxides was formed on the surface of the steel. After the FeCl₃ pitting test, the corrosion rate ratio decreased to 0.24. Compared with the un-passivated counterparts, the corrosion current density and corrosion rate of the passivated SCM435 steel are markedly reduced (F4), exhibiting excellent corrosion resistance.