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Comparative study on corrosion behaviors of ferrite-pearlite steel with dual-phase steel in the simulated bottom plate environment of cargo oil tanks

Xuehui Hao, Xingchuan Zhao, Hui Chen, Baoxu Huang, Jie Ma, Changzheng Wang, Yuansheng Yang

2021Journal of Materials Research and Technology38 citationsDOIOpen Access PDF

Abstract

The corrosion behaviors of ferrite-pearlite steels before and after intermediate quenching treatment were compared in the simulated bottom plate environment of cargo oil tanks. The results indicate that all tested steels exhibited an enhanced galvanic corrosion caused by the accumulated Fe3C. However, the corrosion resistance of steels could be improved by the change in microstructure from ferrite-pearlite to ferrite-martensite through intermediate quenching treatment, whereas a higher temperature caused an adverse effect. This was mainly due to both the Fe3C morphology and the content of cathodic phase in the steel matrix controlling the area ratio of cathode to anode during the corrosion process. Moreover, the proportion of high-angle grain boundaries and the potential difference in the galvanic couple had a limited effect on the galvanic corrosion.

Topics & Concepts

Materials sciencePearliteCorrosionMetallurgyFerrite (magnet)Cathodic protectionMartensiteMicrostructureGalvanic cellDual-phase steelGalvanic corrosionQuenching (fluorescence)AnodeComposite materialAusteniteElectrodePhysical chemistryPhysicsQuantum mechanicsChemistryFluorescenceHydrogen embrittlement and corrosion behaviors in metalsCorrosion Behavior and InhibitionNon-Destructive Testing Techniques
Comparative study on corrosion behaviors of ferrite-pearlite steel with dual-phase steel in the simulated bottom plate environment of cargo oil tanks | Litcius