A six-month corrosion experiment was conducted to examine the corrosion behaviour and scale growth of common iron materials (grey cast iron, carbon steel and ductile iron) in a simulated flow corrosion system. Coupon tests, electrochemical measurements and microanalysis were integrated to reveal the intrinsic connection between corrosion rate variation and physicochemical characteristics of corrosion scales, i.e., the corrosion control mechanism of the scales. The coupon tests showed ductile iron has the lowest corrosion rate and most stable corrosion scales. The EIS analysis confirmed that the corrosion scales have an effective control function for the electrochemical corrosion process. The outer scale layer of grey cast iron and carbon steel was more protective than the inner layer. However, for ductile iron, both the outer and inner layers of the scales were sufficiently dense to inhibit the corrosion process. The scale physicochemical analysis demonstrated the diversity of corrosion product composition and further confirmed the protect mechanism of the pipe scales: an effective corrosioncontrol scale layer is formed with a high content of stable 伪-FeOOH and CaCO3 deposition, which limits the mass diffusion of the electrochemical corrosion process.
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