Fluoroelastomer Specialists
Earlier this year, we reported that Luxemburg’s OCSiAl (U.S. office is in Columbus, Ohio) had begun offering Tuball Matrix graphene nanotube additives specifically developed for high-performance fluoroelastomers (FKM) for applications in oil & gas and automotive sectors. A family of fluoroelastomer materials, FKM is defined by the ASTM International standard D1418. While fluoroelastomers are more expensive that neoprene or nitrile rubber elastomers, they provide additional thermal and chemical resistance.Tubal Matrix is a naturally conductive single-wall carbon nanotube additive that improves the physical properties of various elastomers as well as conductivity without compromising other attributes.
Small, but critical, components such as seals, O-rings, gaskets, and hoses are exposed to the harshest environments in oil & gas operations or as parts of vehicle engines. Fluoroelastomers are often the top choice for these tiny rubber parts due to the requirement to resist synthetic oils, corrosive fumes, chemicals, ultra-high temperatures and pressure. Depending on the final application requirements, conductive compounds based on carbon black or reinforced formulations based on silica are two types of widely used FKM formulations for the most vital sectors.
OCSiAl’s new technology based on Tuball graphene nanotubes has been shown to enhance all mechanical prodperties including prolonged durability, and also provide electrical conductivity to FKM. For example, in a carbon black-based FKM formulation, it has been proven that introducing as low as 3% of graphene nanotube concentrate can neutralize carbon black’s negative impacts on flexibility and elasticity, while also resulting in hardening and a reduced life cycle for the final products. Nanotubes make it possible to achieve electrical resistivity of 5 Ohm*cm, and at the same time to improve tensile and tear parameters by 30–40% without a reduction in elasticity, according to data after heat and fuel C aging.
Read more: Additives: Graphene Nanotubes in Fluoroelastomers Benefit Oil & Gas and Automotive Sectors