Effect of sepiolite treatments on the oxidation of sepiolite/natural rubber nanocomposites prepared by latex compounding technique

Latex compounding technique is an economic and ecosustainable alternative to melt mixing for preparing nanocomposites in which fillers are directly mixed with natural rubber in the latex aqueous dispersion. Clay minerals are excellent potential fillers to be used in masterbatches prepared exploiting this technique, but their presence is associated to the occurrence of oxidative degradation phenomena of natural rubber. In this work, by exploiting a combination of high- and low-resolution 13C and 1H Solid State Nuclear Magnetic Resonance techniques, with the support of Fourier Transform Infrared spectroscopy and thermal analyses, we characterized for the first time the oxidation phenomena occurring in sepiolite/natural rubber masterbatches obtained by the latex compounding technique. Oxidized species were identified and quantified and the dynamic properties, molecular weight and thermal stability of the rubber were characterized. Moreover, the dependence of degradation phenomena on the filler treatment and on the masterbatch work-up procedure was assessed, identifying freeze-drying as the method able to effectively protect the rubber from oxidation.