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Home  > Raw materials & technologies  > Technologies  > Corrosion protection of Ti-6Al-4V by a com...

Wednesday, 30 September 2020
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Raw materials & technologies, Technologies

Corrosion protection of Ti-6Al-4V by a composite coating

Wednesday, 15 July 2020

A new work describes the corrosion protection of Ti-6Al-4V by a composite coating with a plasma electrolytic oxidation layer and sol-gel layer filled with graphene oxide

Seawater is regarded as the most corrosive natural environment. Image source: djedj - Pixabay (symbol image).

Seawater is regarded as the most corrosive natural environment. Image source: djedj - Pixabay (symbol image).

Seawater is regarded as the most corrosive natural environment, and can lead to serious corrosion, friction, and their collaborative effects. In a new work, composite films were fabricated by combining a graphene oxide (GO)-modified hybrid sol-gel (sol-gel/GO) layer and plasma electrolytic oxidation (PEO) layer for corrosion protection. XRD, TFIR, XPS, and Raman analyses were used to prove the covalent functionalisation between the GO and silane coupling agents.

Improved Corrosion performance

The results showed that the micropores in the PEO film were filled with the GO/sol-gel layer. Electrochemical tests indicated that the addition of GO at different concentrations could significantly improve the corrosion performance of the substrates through the good barrier property of the GO nanosheets. Moreover, the enhanced wear resistance of the GO/sol-gel layer during tribocorrosion tests could be attributed to the solid lubrication property of the GO nanosheets.
The work has been published in Progress in Organic Coatings, Volume 144, July 2020.

Image source: Pixabay.

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