Hysteresis and adhesion friction of carbon based elastomer nanocomposites: Theory, experiment and applications

In this work, carbon based sheet like nanoparticles (graphenes) as filler are analyzed regarding friction properties. Because graphene favor lubrication between two friction partners, it makes sense to investigate the frictional behavior of such systems in order to work out the precise effect for elastomers. As fillers, three different graphene types (M25, C750, C198) are used and compared with a standard carbon black N121. It is observed that the friction coefficient, and thus the frictional force decreases with the use of graphene as a filler. However, this is highly dependent on the used graphene typ. Apparently, the binding of the polymer to the graphenes plays a major role for the friction. Additionally, the friction theory of Heinrich and Kluppel is used to compare the experimental data with a recent theoretical description of rubber friction.