Superhydrophobic and low-hysteresis coating based on rubber-modified TiO2/SiO2 nanoparticles

Abstract: In this article, the wettability of a superhydrophobic layer from rubber-modified TiO 2 /SiO 2 nanocomposite is studied. The nanocomposites were prepared with various ratios of TiO 2 and SiO 2 nanoparticles (NPs) and then studied the effect of annealing, UV irradiation and aging after coating on a substrate. Results show that the average contact angle of deionized water droplets on the most hydrophobic coating is 129.5°, which increases up to 151.0°by UV irradiation. In addition, the lowest surface energy of t… Show more

“…It is imperative to develop a damping material with good moisture resistance and high thermal stability. The common method for improving hydrophobic properties is to incorporate inorganic particles into the matrix or combine them with coating to form micro-scale structure and then ll the surface and the micro-structure with nanostructured hydrophobic materials in between [31]. The material is considered hydrophobic when the water contact angle is more than 90°.…”

A novel hydrophobic butyl rubber damping composites modified with environmentally friendly bio-based PF/DBA via constructing three-dimensional network

“…It is imperative to develop a damping material with good moisture resistance and high thermal stability. The common method for improving hydrophobic properties is to incorporate inorganic particles into the matrix or combine them with coating to form micro-scale structure and then ll the surface and the micro-structure with nanostructured hydrophobic materials in between [31]. The material is considered hydrophobic when the water contact angle is more than 90°.…”

A novel hydrophobic butyl rubber damping composites modified with environmentally friendly bio-based PF/DBA via constructing three-dimensional network

SiO2–TiO2@polyvinylidene fluoride nanocomposite: the icephobicity and wettability

Preparation strategy and evaluation method of durable superhydrophobic rubber composites