In the development of a low- VOC, self-healing epoxy hybrid primer, this company leveraged its self-healing technology to design a waterborne protective primer with an unprecedented combination of corrosion resistance and eco-friendliness.
NanoRustX (NRX) NanoPrime works by chemically reacting with iron and iron oxide (rust) to form iron phosphate and creates a nano bond with both metallic and painted surfaces. The chemically bonded layer is insoluble and extremely corrosion resistant.
Developments in chemically resistant, 2K polymer-modified epoxy coatings have met several market needs, including carry of sulfuric acid, coating inspection facilitation, anti-static coatings, improved abrasion resistance and field-repairable coatings.
Photosensitive haptic coatings can not only achieve gradual color change on athletic footwear, but could also be used for point-of-purchase individualization.
The COVID-19 pandemic has escalated the aggressiveness and frequency of cleaning in higher-risk healthcare environments. This, coupled with existing guidelines, has created a need for more durable and chemical-resistant solutions in the healthcare built environment.
Over the past couple of decades, there has been a lot of discussion, R&D, marketing and sales efforts aimed at converting as many products that are based upon fossil fuel-derived specialty chemicals to “green” (biosourced) analogs, as possible.
Silanes have been shown to improve film properties of resin systems when they are reacted into the resin or incorporated into a resin solution as additives. The improved properties result from their unique functionality, which allows for inter-polymer crosslinking and chemical bond¬ing to many substrates.
The use of ambient-curing silicone resins shows a good alternate option to formulate high heat-resistant coatings compared to the traditional oven-curing or ambient-drying silicone resins.