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Tuesday, 24 September 2019
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Raw materials & technologies, Applications, Protective & Marine coatings

Polysiloxane coatings for anticorrosion applications in marine environment

Wednesday, 8 November 2017

Researchers have investigated nanostructured superhydrophobic polysiloxane coatings for high barrier and anticorrosion applications in marine environment.

Polysiloxane coatings for anticorrosion applications in marine environment. Source: Pixabay

Polysiloxane coatings for anticorrosion applications in marine environment. Source: Pixabay

The use of epoxy and polyurethane coatings as marine topcoats have been influenced by their inherent high surface energy property which increases their affinity to water and microorganisms. Thus, their susceptibility to degradation is enhanced. Because of this defect, recently, nanostructured hydrophobic and superhydrophobic polysiloxane coatings are being preferred as topcoats. But the appropriate nanoparticle size and matrix : filler ratio which provide guide for the design of desired topcoats are scarcely available.

Test methods used

In view of this, a series of hydrophobic and superhydrophobic coatings were prepared by sol-gel process based on perfluorodecyltrichlorosilane (FDTS), different nano ZnO particles and poly(dimethylsiloxane) (PDMS) : nano ZnO ratios. The liquid repellency, surface morphology and roughness of the coatings were conducted by use of contact angle goniometer, field emission scanning electron microscopy and atomic force microscopy, respectively. Additionally, the electrochemical and salt spray corrosion tests were conducted.

Highest anticorrosion performance

According to the results, modifications of the coatings showed that anticorrosion performance was considerably influenced by the surface properties which were dependent on nanoZnO size and PDMS : nano ZnO ratio. Remarkably, the optimum effect was observed on the superhydrophobic coating based on 30 nm ZnO and 1:1 ratio. This displayed highest anticorrosion performance, and is therefore recommended as a guide for the design of marine topcoats.

The study is published in: Journal of Colloid and Interface Science, Volume 512, 15 February 2018.

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