New Nanoprene development from LANXESS

New Nanoprene development from LANXESS

Article Type: New products From: Pigment & Resin Technology, Volume 38, Issue 1

Specialty chemicals group LANXESS has developed a new high-performance rubber additive – Nanoprene. This material additive for the rubber mixture of the tire tread significantly cuts wear in auto-mobile tires. The much longer service life of the tire as a wearing part is easy on the wallet and the environment. Unlike with many new developments in the tire rubber sector, use of this additive to enhance wear resistance does not in any way impact on rolling resistance or wet grip.

“Boosting tire service life without losing other key tread properties was a major challenge for the rubber industry,” explains Nanoprene developer Prof. Werner Obrecht, rubber expert at the LANXESS Technical Rubber Products (TRP) business unit. “Despite all the positive developments of the last 20 years, after traveling around 40,000 km, the tread pattern is normally worn and new tires are then needed. This is not only annoying for the customer, since the fine rubber particles created by the tire wear ultimately end up in the environment.” The wear properties of a tire rubber are linked to its wet grip and rolling resistance through the “magic triangle of tire technology.” To put it simply, it is not possible to have everything at once, i.e. low fuel consumption, reliability on dry and wet roads and a tire that lasts forever. If improvement is desired for one of these properties, this is not feasible without making concessions on the others.

Nanoprene reduces this conflict of objectives. In chemical terms, this additive consists of particles of only around 50 nm made from polymerized styrene and butadiene –, i.e. “traditional” tire rubber raw materials. What makes all the difference is the minimal size and surface functionality ensured by a highly specialized production process at LANXESS. The nanoparticles with the swell-resistant, highly cross-linked core have special “anchor points” on their surface, enabling the Nanoprene particles to be perfectly linked with silica and silanes. Silica is deployed in modern tires instead of carbon black to cut rolling resistance and gives tires excellent wet grip. “Adding Nanoprene to a tread mix containing silica improves wear resistance and grip. At the same time, rolling resistance remains at a low level. The ‘magic triangle’ is therefore extended,” says Prof. Obrecht, highlighting the physical and chemical relationships.

The use of Nanoprene does not entail disadvantages on the process engineering side. Tire manufacturers can, unlike with most “traditional” additives, retain their tried and tested rubber formulations and yet significantly cut wear caused by abrasion. “Nanoprene may be viewed very much as a sort of spice that makes a good recipe even better,” says Obrecht. Even the form in which the new product is supplied will be familiar to users. The additive produced by LANXESS at the emulsion rubber production plant in La Wantzenau, France, arrives at the customer in bale form as with any tire rubber. All that has to be done is to optimize the sequence and timing for adding additives and to adapt to the mixing equipment used to enable Nanoprene to deliver the optimal effect. Users can request support for this from LANXESS.

The first products with this additive are already on the market. Nanoprene is currently undergoing extensive tests at selected tire manufacturers. The Nanoprene product range will be expanded in the near future with further grades that vary, for example, in terms of their glass transition temperature –, i.e. their low-temperature flexibility – and are thus even better suited to specific types of tire. “With Nanoprene, we haven’t just succeeded in making a specialty product out of ordinary SBR tire rubber,” explains Obrecht. “This innovation sees us living up to our reputation as a premium supplier and technology leader in the industry.”

Together with LANXESS’s Rhein Chemie business unit, TRP is opening up further application areas for Nanoprene. These include impact resistance modification for thermoplastics and thermosetting plastics. Work is also under way to develop a specific Nanoprene grade for fuel cell membranes. LANXESS has created numerous patents during the development of Nanoprene which are already applied for patent protection worldwide. LANXESS is a leader in specialty chemicals with sales in 2007 of EUR 6.61 billion and currently around 15,100 employees in 21 countries. The company is represented at 44 production sites worldwide. The core business of LANXESS is the development, manufacture and sale of plastics, rubber, intermediates and specialty chemicals.