Our August issue features articles on transportation coatings, new pigment dispersions for solvent-based industrial coatings, sustainable coatings, and much more!
The TiO2 industry is in a position never before experienced in its long history as it moves through the seasonally high coatings demand period in North America. Demand is returning beyond average GDP levels, particularly in China. In turn, price-sensitive customers are absorbing a huge increase in price.
This article examines the environmental benefits of long-life coatings, including a comparison study of the carbon footprint of a fluoropolymer powder coating versus a solvent-based coating.
The coating technology discussed in this article is a 100%-waterborne, high-ratio zinc silicate. When used as a single-coat system – or when complemented with a topcoat for aesthetics – the product delivers superior and complete corrosion-prevention benefits that are unmatched when compared to other "IOZ" systems used in the marine environment.
Clariant has utilized its global network of chemists and product experts to drive the development of a better colorant solution for use in industrial coatings.
This study reveals the degradation mechanism of a typical acrylic melamine automotive clearcoat caused by bird droppings. It was found that natural bird droppings and pancreatin are able to catalyze the hydrolytic cleavage of etheric and esteric linkages of acrylic melamine clearcoats, leaving etched areas and local defects as well as a decreased appearance on the clearcoat surface.
In shipping's ongoing efforts to survive and thrive in the global economy, and on the backdrop of societal and regulatory pressure to reduce maritime's impact on the environment, tackling biofouling head-on and mitigating the risks has never been so important.
There are important advantages related to the latex properties that can be achieved with a semi-batch process, and more specifically a starve-fed process, which is simply a semi-batch process where the monomer concentration inside the polymer particles is kept very low by keeping the monomer feed rate to the reactor low.
