The degradation mechanism of an epoxy-phenolic can coating
2016; Elsevier BV; Volume: 102; Linguagem: Inglês
10.1016/j.porgcoat.2016.03.019
ISSN1873-331X
AutoresSuzanne Morsch, S.B. Lyon, Simon R. Gibbon,
Tópico(s)Electrochemical Analysis and Applications
ResumoPaint remains a widely employed approach to corrosion control due to its relatively low cost and proven efficacy. Nonetheless, the processes governing long-term deterioration of intact organic coatings (in the absence of defects) are not fully understood. In this contribution, we investigate the degradation mechanism of a corrosion resistant epoxy-phenolic can coating. In-situ time-resolved ATR FTIR is applied to monitor both the chemical integrity of the coating and water uptake as a function of immersion time in deionised water or electrolyte. Ion transport is then assessed across free standing films, and the morphological changes accompanying immersion are examined using ex-situ advanced scanning probe microscopy techniques. Coatings are found to deform as a result of water sorption during immersion in electrolyte or water, yielding regions of a heterogeneously hygroscopic nature, yet no change in functional group chemistry is found to occur.
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