Novel nano-filled coatings for the protection of built heritage stone surfaces

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Abstract

An experimental nano-filled coating, based on a fluorine resin containing SiO2 nanoparticles, was applied on calcareous stones, representative of materials used in buildings and monuments of the Mediterranean basin; for comparison purposes, two commercial products were applied on the same substrates. The efficacy of the protective treatments was assessed by analyzing different characteristics of the three experimental/commercial products, i.e., color changes and permeability to water vapor to evaluate the treatments’ harmlessness; capillary water absorption and water stone contact angle to evaluate the protection against water ingress; oleophobicity of the treated surfaces and the behavior under staining by acrylic blue-colored spray paint and felt-tip marker to verify the anti-graffiti action. Finally, the properties of the treated stone surfaces were analyzed also after the application of pancreatin, used to simulate bird excreta (guano). The protective coatings were found to promote graffiti removal, reducing also the detrimental effects due to simulated guano. The experimental nano-filled product, in addition, was able to provide outstanding performance but using smaller amounts of product in comparison to commercial systems.

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Lettieri, M., Masieri, M., & Frigione, M. (2021). Novel nano-filled coatings for the protection of built heritage stone surfaces. Nanomaterials, 11(2), 1–13. https://doi.org/10.3390/nano11020301

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