Abstract
The atmospheric corrosion behavior of a hot-rolled strip with four types (I–IV) of oxide scale was investigated using the accelerated wet–dry cycle corrosion test. Corrosion resistance and porosity of oxide scale were studied by potentiometric polarization measurements. Characterization of samples after 80 cycles of the wet–dry corrosion test showed that scale comprised wüstite and magnetite had strongest corrosion resistance. Oxide scale composed of inner magnetite/iron (>70%) and an outer magnetite layer had the weakest corrosion resistance. The corrosion kinetics (weight gain) of each type of oxide scale followed an initial linear and then parabolic (at middle to late corrosion) relationship. This could be predicted by a simple kinetic model which showed good agreement with the experimental results. Analysis of the potentiometric polarization curves, obtained from oxide coated steel electrodes, revealed that the type I oxide scale had the highest porosity, and the corrosion mechanism resulted from the joint effects of electrochemical behavior and the porosity of the oxide scale. In the initial stage of corrosion, the corrosion product nucleated and an outer rust layer formed. As the thickness of outer rust layer increased, the corrosion product developed on the scale defects. An inner rust layer then formed in the localized pits as crack growth of the scale. This attacked the scale and expanded into the substrate during the later stage of corrosion. At this stage, the protective effect of the oxide scale was lost.
Highlights
Hot rolled steel plate accounts for the largest percentage of hot rolled steel products used in China
Hot rolled steel plates usually have no surface coating, so they are susceptible to atmospheric corrosion during transportation or storage and electrochemical corrosion caused by water in the stack or roll [2]
The results suggested that alloying elements could be enriched in the oxide scale, which affected the corrosion resistance of steel significantly
Summary
The surface of hot rolled steel strip is susceptible to the formation of a very thin water film due to adsorption in a humid environment. The oxide scale has great influence on the electrochemical corrosion of hot rolled steel strip. Dong [16] et al applied EIS and surface characterization to examine the electrochemical corrosion behavior of hot rolled steel strip in 1% NaCl solution. In this study we focused on the influence of oxide scale types and surface conditions on the corrosion protection of hot rolled steel strip. An understanding of these processes will extend the understanding of the corrosion behavior mechanisms of hot rolled steel products. Cross-sectional morphology was observed using OLYMPUS-BX53M metallographic microscope.PS software was used to count the pixels of each oxide phase in the metallographic photos, and the proportion of each oxide phase calculated
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