Bronze corrosion protection by bilayer systems: Self-assembled monolayers of phosphonic acid/waterborne acrylic coating

Bronze corrosion protection by bilayer systems: Self-assembled monolayers of phosphonic acid/waterborne acrylic coating

The self-assembled monolayers of three long-chain phosphonic acids were investigated as possible adhesion promoters and corrosion inhibitors that could improve the corrosion protection of bronze by an acrylic waterborne coating. Corrosion behaviour was investigated by polarization measurements and e...

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Bibliographic Details
Published in:Progress in organic coatings Vol. 186; p. 107984
Main Authors: Kapitanović, Angela, Kokot, Tea, Otmačić Ćurković, Helena
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2024
Subjects:
Adhesion promoter
Corrosion inhibition
Phosphonic acid
Waterborne coating
Phosphonic acid
Waterborne coating
Adhesion promoter
Corrosion inhibition
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Summary:The self-assembled monolayers of three long-chain phosphonic acids were investigated as possible adhesion promoters and corrosion inhibitors that could improve the corrosion protection of bronze by an acrylic waterborne coating. Corrosion behaviour was investigated by polarization measurements and electrochemical impedance spectroscopy (EIS) under continuous exposure to simulated acid rain and accelerated aging in a corrosion chamber with NO2. The obtained results showed that all the studied phosphonic acids can improve the protective properties of waterborne coating, but their effect depended on the application method. For adsorption carried out by immersion in an acid solution, the 12-aminododecyl phosphonic acid/coating system showed the best corrosion protection while for the brush application that was 12-phosphonododecylphosphonic acid/coating system. Adhesion measurements showed significant improvement of coating adhesion for 12-aminododecyl phosphonic acid immersion application. The surface wettability investigated by contact angle measurements turned to be a good indicator of the effectiveness of the surface pretreatment. [Display omitted] •Application of phosphonic acid monolayer improves the waterborne coating properties.•Positive effect is reflected in increased corrosion protection and coating adhesion.•SAM's efficiency depends on the application method and the terminal group.•The improvement is related to the degree of order in the monolayer.•The water contact angle can be a good indicator of better protective properties.
ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2023.107984