Three-dimensional structure analysis and percolation properties of a barrier marine coating

Artificially structured coatings are widely employed to minimize materials deterioration and corrosion, the annual direct cost of which is over 3% of the gross domestic product (GDP) for industrial countries. Manufacturing higher performance anticorrosive coatings is one of the most efficient approa...

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Bibliographic Details
Published in:Scientific reports 2013, Vol.3 (1), p.1177-1177, Article 1177
Main Authors: Chen, Bo, Guizar-Sicairos, Manuel, Xiong, Gang, Shemilt, Laura, Diaz, Ana, Nutter, John, Burdet, Nicolas, Huo, Suguo, Mancuso, Joel, Monteith, Alexander, Vergeer, Frank, Burgess, Andrew, Robinson, Ian
Format: Article
Language:English
Subjects:
Aluminum
Coatings
Composite materials
Computed tomography
Corrosion
Electron microscopy
Scanning electron microscopy
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Summary:Artificially structured coatings are widely employed to minimize materials deterioration and corrosion, the annual direct cost of which is over 3% of the gross domestic product (GDP) for industrial countries. Manufacturing higher performance anticorrosive coatings is one of the most efficient approaches to reduce this loss. However, three-dimensional (3D) structure of coatings, which determines their performance, has not been investigated in detail. Here we present a quantitative nano-scale analysis of the 3D spatial structure of an anticorrosive aluminium epoxy barrier marine coating obtained by serial block-face scanning electron microscopy (SBFSEM) and ptychographic X-ray computed tomography (PXCT). We then use finite element simulations to demonstrate how percolation through this actual 3D structure impedes ion diffusion in the composite materials. We found the aluminium flakes align within 15° of the coating surface in the material, causing the perpendicular diffusion resistance of the coating to be substantially higher than the pure epoxy.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep01177