LANXESS launches lubricant additive for PVs and high-performance engine oils
Additin RC 3502 provides a bonus of ‘boosting’ additive-additive interactions directly at the frictional surfaces
Specialty chemicals company LANXESS is launching an organic lubricant additive for passenger car and high-performance engine oils. The new Additin RC 3502 has been specifically developed to reduce friction and deliver sustained performance and anti-wear protection. The friction modifier is non-corrosive, compatible with all synthetic and mineral engine oils and has zero SAPS (sulfated ash, phosphorous, sulfur).
The additives business unit (ADD) of LANXESS offers a broad portfolio of lubricant products for a host of different applications and industries. These products, such as base oils, lubricant additives, additive packages and formulated lubricants help clients to meet increasingly stringent, legally prescribed standards for emissions and fuel efficiency. The automotive industry is currently focusing particularly closely on the latter, and the new friction modifier from LANXESS caters to this development, since an effective engine lubricant plays an important role in fuel efficiency.
“The new Additin RC 3502 is a durable organic friction modifier developed for today’s extended drain, high mileage applications, typically up to 20,000 miles, with exceptional solubility in the full range of commercially available passenger car and high-performance engine oils,” says Dr Frank DeBlase, application technology manager in the Lubricant Additives business line of ADD.
In addition, Additin RC 3502 provides a bonus of ‘boosting’ additive-additive interactions directly at the frictional surfaces where surface-active anti-wear additives, detergents and molybdenum dithiocarbamates work. This property, combined with an excellent friction reduction capability and durability, translates in engine dynamometer testing (ASTM D8114) to the friction reduction required for fuel economy gains in ILSAC GF-5+ and GF-6, new industry specifications with even higher demands on fuel economy.