The U.S. Environmental Protection Agency (EPA; www.epa.gov) has awarded Clariant (Muttenz, Switzerland; www.clariant.us) its New Chemicals Program P2 Recognition Project Award for the company’s Exolit OP 560, a new-generation non-halogenated flame retardant. The product is made by Clariant’s Pigments & Additives Division for polyurethane foams in automotive, furniture and consumer applications. This is the second time in two years that Clariant has won the EPA honor, given to products that offer innovative chemistry and significant pollution prevention potential. Clariant’s Paper business received the P2 Recognition Project Award in 2008 for Cartaspers PSM, a product used in paper manufacturing.
EPA gave only four P2 Recognition awards this year. Award winners are selected from among all new chemicals submitted to the agency for registration and for which manufacturing or import commenced in the U.S. during 2008.
The award-winning chemicals are identified through EPA’s New Chemicals Program, which screens up to 2,500 chemicals a year through the Pre-Manufacture Notice (PMN) P2 screening process as well as during more detailed new chemical reviews. In selecting products to recognize under the program, EPA says it looks for products that promote source reduction as well as safety goals.
In recognizing Clariant’s Exolit OP 560, EPA specifically cited its halogen-free “unique chemistry (that) allows maximum flame retardant efficiency without the release of potentially toxic gases into the atmosphere when combusted or the production of dangerous halogenated byproducts upon degradation or combustion.”
Mark Self, market segment manager for Special Applications in Clariant’s Pigments & Additives Division, says Exolit OP 560 is unique as an efficient flame retardant that offers low dosage to meet current industry-fire-safety standards.
“We are particularly proud of the innovation behind this achievement,” says Self, “because of the human-health and environmental benefits it offers.” He notes that, “Exolit OP 560 is a reactive flame retardant that will chemically bind to the polymer instead of just being mixed into it. Therefore it cannot evaporate or migrate out of the polymer. This benign environmental profile is also often recognized by ecolabel programs.”