Water‐resistant latex coatings: Tuning of properties by polymerizable surfactant, covalent crosslinking and nanostructured ZnO additive

Abstract

This paper deals with the development of acrylic latexes providing high‐performance wa-ter‐resistant coatings. For this purpose, mutual effects of anionic surfactant type (ordinary and polymerizable), covalent intra‐ and/or interparticle crosslinking (introduced by allyl methacrylate copolymerization and keto‐hydrazide reaction, respectively) and ionic crosslinking (provided by nanostructured ZnO additive) were investigated. The latexes were prepared by the standard emulsion polymerization of methyl methacrylate, butyl acrylate and methacrylic acid as the main mon-omers. The addition of surface‐untreated powdered nanostructured ZnO was performed during latex synthesis, resulting in stable latexes comprising dispersed nanosized additive in the content of ca 0.9-1.0 wt.% (based on solids). The coating performance with emphasis on water resistance was evaluated. It was determined that the application of the polymerizable surfactant improved coating adhesion and water‐resistance, but it wasn′t able to ensure high water‐resistance of coatings. Highly water‐resistant coatings were obtained provided that covalent intra‐ and interparticle cross-linking together with ionic crosslinking were employed in the coating composition, forming densely crosslinked latex films. Moreover, coatings comprising nanostructured ZnO additive displayed a significant antibacterial activity and improved solvent resistance. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.