Galvanic corrosion behavior of titanium‐clad steel plate in the marine environment

In this study, the galvanic corrosion behavior of the side surface of titanium‐clad steel plate (TCSP) and below the defects, which penetrate through the titanium layer of TCSP, have been focused on. Electrochemical corrosion tests and infinite focus three‐dimensional measurement results revealed that galvanic corrosion on the side of TCSP will lead to widespread pitting of the steel, and the distribution positions of pits in splash, tidal, and submerged zones are different. Severe corrosion occurs below the defects in the titanium layer of TCSP, and the larger the defect, the deeper the corrosion depth, but TCSP with smaller defects have larger corrosion width on the Ti‐Stl line (the joint between the titanium and steel). This shows that the size of the defect will influence the density of corrosion products and the effect of TCSP defect internal corrosion on titanium layer peeling is extremely limited. The corrosion process of titanium‐clad steel plates with defects in marine corrosive environments was investigated—the larger the defect, the deeper the corrosion depth. However, titanium‐clad steel plates with smaller defects have larger corrosion width on the joint between the titanium and steel. The effect of titanium‐clad steel plate defect internal corrosion on titanium layer peeling is extremely limited.