One‐step fabrication of wear‐resistant superhydrophobic coating based on aminosilane‐functionalized diatomaceous earth

Abstract: Facile fabrication of superhydrophobic coatings with excellent mechanical robustness is highly desired in practical application. Herein, a convenient and effective strategy for one-step fabrication of robust volumetric superhydrophobic coating was developed containing aminosilane-functionalized cylindrical diatomaceous earth (DE) particles and a polyurethane (PU) resin. Due to the strong chemical cross-linking between the amino groups and the isocyanates, the superhydrophobic DE particles were strongly anchore… Show more

“…Several methods have been developed to improve the wear resistance of the coating surface. [ 12 ] Sun et al [ 13 ] utilized chemical crosslinking between aminosilane‐functionalized diatomite and isocyanate groups in polyurethane resin to prepare wear‐resistant superhydrophobic coating, which can withstand the 20 m abrasion by sandpaper. Zhang et al [ 14 ] prepared a superhydrophobic polyurethane acrylic (PUA) coating by the interfacial strengthening technique.…”

Facile Preparation of a Robust Superhydrophobic SiO₂/Epoxy Composite Coating with Favorable Corrosion and Scale Inhibition Performance

“…Several methods have been developed to improve the wear resistance of the coating surface. [ 12 ] Sun et al [ 13 ] utilized chemical crosslinking between aminosilane‐functionalized diatomite and isocyanate groups in polyurethane resin to prepare wear‐resistant superhydrophobic coating, which can withstand the 20 m abrasion by sandpaper. Zhang et al [ 14 ] prepared a superhydrophobic polyurethane acrylic (PUA) coating by the interfacial strengthening technique.…”

Facile Preparation of a Robust Superhydrophobic SiO₂/Epoxy Composite Coating with Favorable Corrosion and Scale Inhibition Performance

Nonlinear modeling on stiffness properties of diatomite-incorporated BFRPs with experimental strength and toughness evaluations

Hygienic coatings with nano-functionalized diatomaceous earth by Equisetum giganteum – Mediated green synthesis