Surface resistance and diffusion characteristics of toluene into calcium carbonate- and polymer-coated calcium carbonate-filled natural rubber composites

Authors


Abstract

Solvent absorption has been followed in compression-molded rubber vulcanizates for toluene in natural rubber (gum), calcium carbonate (CC)-filled natural rubber composites, and polymer-encapsulated calcium carbonate (PCC)-filled natural rubber composites. The surface resistance is found to affect the absorption process of the composites. Diffusion from the sample sides is considered for thickness and the diffusion coefficients corrected accordingly. Aspects of the effect of PMMA on the equilibrium toluene take up, Fickian mode of transport; transport coefficients; activation parameters; and crosslink density are studied. The sorption results have been interpreted in terms of first-order kinetic model. The crosslink densities calculated from equilibrium sorption successfully to explain the transport coefficient values of the composites. POLYM. ENG. SCI., 53:2487–2497, 2013. © 2013 Society of Plastics Engineers

Ancillary