The microstructure of an organic coating affects the leaching of inhibitor pigment, and this microstructure can be altered by the addition of other pigments.
The network of cavities and voids formed upon dissolution and removal of the soluble pigment introduces transport paths, and consequently, facilitates the leaching of the main inhibitor pigment.
Adequate leaching of active inhibitor pigments in organic coatings is essential for corrosion protection that relies on active inhibition of the metallic substrate. Therefore, it is important to obtain a comprehensive understanding of the factors that influence leaching kinetics and mechanisms. In the present study, model organic coatings were formulated to investigate the influence of additional pigmentation (i.e. pigments other than the main inhibitor) on the leaching of species released from the main inhibitor pigment.
In a recent article, It was found that addition of soluble/sparingly soluble pigments to the organic coating resulted in increased leaching rate. This was attributed to the formation of clusters comprised of both the main inhibitor pigment and the additional pigment. The network of cavities and voids formed upon dissolution and removal of the soluble pigment introduces transport paths in the organic coating, and consequently, facilitates the leaching of the main inhibitor pigment.
The study was published in Progress in Organic Coatings, Volume 172, November 2022.