This article describes the development of siliconized UV light-cured coatings.
Ceramic microspheres may offer formulators alternatives in waterborne UV-curable coatings to serve as both a matting agent and functional performance filler.
The alternative matting agents discussed in this article offer a first step to developing new ways of controlling the light scattering properties of radiation-curable coatings.
These new blue-colored resins have been designed with input from formulators, equipment manufacturers and coating applicators, and as a result meet the needs of this sector for increased ease of application combined with high-performance properties.
Aliphatic urethanes with high acrylate functionality result in cured films having excellent abrasion resistant properties. The family of UV-PUD materials examined offers a higher reactive solid content at a lower viscosity when compared to typical UV-PUDs on the market.
A one-step photoinduced sol-gel and free-radical photopolymerization process was proven to be an efficient process to synthesize hybrid sol-gel coatings with interesting properties, in particular high corrosion protection performance.
By using carefully selected renewable building block monomers, we can design polyester biopolyols with 100% renewable carbon content that can be used to produce high-performance UV-PUDs suitable for use in many coatings applications.
As power and efficiency of UV/LED devices have improved, they are being used in more processes
A family of new radiation-curable additives with an improved compatibility in various formulations (solvent-free, solvent and waterborne) and covering a broad slip range has been developed.