An anti-icing coating having a continuous phase and a discrete phase. The continuous phase includes a fluorine-containing polymer formed from a fluorine-containing precursor having a functionality of greater than 2. The discrete phase includes a plurality of domains having a fluorine-free hygroscopic and/or hydrophilic material. The plurality of domains are dispersed within the continuous phase and are immersible with the continuous phase. At least a portion of the fluorine-free material is bonded to the fluorine-containing polymer with an isocyanate-containing moiety. The fluorine-containing polymer is crosslinked with a crosslinking molecule having at least 4 functional groups. The fluorine-free material is a poly(ethylene glycol).

A color sampling display product is provided that includes a radiation-curable water-based coating composition applied to a substrate, and shows mechanical integrity and aesthetic appeal.

A color sampling display product is provided that includes a radiation-curable water-based coating composition applied to a substrate, and shows mechanical integrity and aesthetic appeal.

Disclosed herein are a multilayer coating system present on a substrate including at least three layers L1 to L3, layer L1 being obtained from a primer coating composition, which is obtained from a primer coating system including at least two components A) and B) separated from each other, where component A) inter alia includes at least one constituent a2), which is at least one (meth)acrylic polymer, which has been modified with at least one chlorinated polyolefin, where the polymer contains functional groups, that are reactive towards NCO-groups, layer L2 being obtained from a basecoat composition, and layer L3 being obtained from a clearcoat composition, a method of preparing a multilayer coating system making use of the aforementioned primer coating system, and a kit-of-parts including separated from one another at least the primer coating system and a clearcoat composition or a clearcoat system.

According to an aspect of the present disclosure, a heat-resistant coating composition includes: an inorganic filler which is iron (Fe)-based amorphous alloy powder having an amorphous phase and an average particle diameter of 0.5 m to 15 m; and a binder, where the coefficient of thermal expansion of the inorganic filler is lower than the coefficient of thermal expansion of the binder.