Abstract
Epoxy nanocomposite coatings are an essential way to protect petroleum storage tanks from corrosion. For this purpose, the new nanocomposite epoxy coatings (P-M/epoxy composites) have been successfully designed. The P-M/epoxy composites are based on the metal vanadium oxy-phosphate M0.5VOPO4 (where M = Mg, Ni, and Zn). The function of P-M/epoxy composites as anti-corrosion coatings was explored using electrochemical and mechanical tests. Using electrochemical impedance spectroscopy (EIS), it has been noticed that the pore resistance and polarization resistance of the P-M/epoxy composites remain higher as compared to the neat epoxy. The P-M/epoxy composites have the greatest impact on the cathodic dis-bonded area and water absorption. Besides, P-M/epoxy composites exhibit a very high order of mechanical properties. Further, Mg0.5VOPO4 has the greatest effect on the anti-corrosion properties of epoxy coating followed by Zn0.5VOPO4 and Ni0.5VOPO4. All these properties lead to developing effective anti-corrosion coatings. Thus, the net result from this research work is highly promising and provides a potential for future works on the anti-corrosion coating.
Highlights
Epoxy nanocomposite coatings are an essential way to protect petroleum storage tanks from corrosion
The influence of new synthesis phosphate compounds M0.5VOPO4 on the anti-corrosion properties of the epoxy coating was confirmed by the electrochemical impedance spectroscopy (EIS) studies
The new P-M/epoxy composites based on the vanadium oxy-phosphate M 0.5VOPO4 (M = Mg, Ni and Zn) was successfully developed the anti-corrosion properties of epoxy coating nanocomposites were clearly investigated by electrochemical and mechanical measurements
Summary
Epoxy nanocomposite coatings are an essential way to protect petroleum storage tanks from corrosion. We combine electrochemical and mechanical assays to investigate how the title compounds influence the anti-corrosion properties of epoxy coating nanocomposites.
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