Investigation of ZnO/Waterborne Polyurethane Hybrid Coatings for Corrosion Protection of AISI 1018 Carbon Steel Substrates

P. Salazar-Bravo, D. Del Angel-López, A. M. Torres-Huerta, M. A. Domínguez-Crespo, D. Palma-Ramírez, S. B. Brachetti-Sibaja, A. C. Ferrel-Álvarez

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

ZnO nanoparticles were synthesized by the traditional sol–gel method followed by a thermal treatment at different temperatures (673 K, 873 K, or 1073 K) and addition of different amounts (2, 4, or 6 wt pct) into a commercial waterborne polyurethane (WBPU) matrix in order to produce hybrid coatings for corrosion inhibition of AISI 1018 carbon steel (CS). The different hybrid coatings were deposited by the spraying method after being magnetically stirred for 60 minutes. The effects of the thermal treatments on the structural, optical, and morphological properties of ZnO particles were analyzed by X-ray diffraction, ultraviolet visible spectroscopy (UV–vis), and scanning electron microscopy. Changes in the electrochemical performances of waterborne polyurethane-coated carbon steel attributable to the incorporation of ZnO powders were investigated by the open-circuit potential, electrochemical impedance spectroscopy, and potentiodynamic polarization techniques in chloride medium. Also, structural, chemical, and mechanical properties were characterized in the hybrid coatings to evaluate the interaction type, UV degradation, adhesion, and hardness. The results revealed that the crystallite size of ZnO particles was within the interval ranging from 33.10 ± 0.02 to 72.00 ± 0.05 nm, which increased with the increasing temperature of thermal treatment. The treatment temperature modified the morphology of the ZnO particles, where a rod-type morphology was observed at 673 K, whereas agglomerated hexagonal facets were obtained at 1073 K. ZnO powders can reinforce the optical properties of WBPU coatings, which could delay the structural damage of the polymer, particularly in the UV region, and transparency can be modulated depending on the crystallite size, the amount of added ZnO, and the thermal treatment. The 6 wt pct (673 K) loading of ZnO particles during the WBPU polymerization improved the mechanical properties from 79.2 ± 4 to 165.5 ± 0.1 MPa. The electrochemical performance suggests that ZnO reinforced the barrier properties of WBPU, but at the same time supplied active protection by precipitating zinc hydroxide species in the cathodic sites. Kinetic parameters and impedance analysis showed that hybrid coatings containing 6 wt pct of the treated ZnO particles (673 K) displayed the best protection efficiency of AISI 1018 CS.

Original languageEnglish
Pages (from-to)4798-4813
Number of pages16
JournalMetallurgical and Materials Transactions A: Physical Metallurgy and Materials Science
Volume50
Issue number10
DOIs
StatePublished - 15 Oct 2019

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