Abstract
The reduced graphene oxide (rGO) modified natural rubber composite (NR) filled with high contents of silica was prepared by a wet compounding and latex mixing process using a novel interface modifier cystamine dihydrochloride (CDHC) with coagulation ability. CDHC acts as a coagulation agent through electrostatic interaction with rGO, SiO2, and latex rubber particles during the latex-based preparation process, while in the obtained silica/graphene/natural rubber composites, CDHC acts as an interface modifier. Compared with the composites prepared by the conventional mechanical mixing method, the dispersion of both rGO and SiO2 in the composites made by a wet compounding and latex mixing process is improved. As a result, the obtained silica/graphene/natural rubber composite prepared by this new method has good comprehensive properties. A Dynamic Mechanical Test suggests that the tan δ values of the composites at 60 °C decrease, indicating a low rolling resistance with increasing the graphene content at a low strain, but it increases at a higher strain. This unique feature for this material provides an advantage in the rubber tire application.
Highlights
Inorganic fillers such as carbon black and silica (SiO2 ) are widely used in the rubber industry for various purposes, mainly for reinforcement, reduction in material costs, and improvements in processing
The results show that silica and natural rubber composite (NR) latex are negatively charged, while the cystamine dihydrochloride (CDHC) solution is positively charged
CDHC can form strong electrostatic interactions with reduced graphene oxide (rGO), silica, and NR latex particles, which will destroy the stability of latex and cause the coagulation of all components
Summary
Inorganic fillers such as carbon black and silica (SiO2 ) are widely used in the rubber industry for various purposes, mainly for reinforcement, reduction in material costs, and improvements in processing. The silica/reduced graphene oxide (SiO2 @rGO) hybrid fillers were prepared by solution electrostatic assembly, and the dispersion of graphene in the rubber matrix was improved [20,21,22]. This method can avoid the Polymers 2020, 12, 2549; doi:10.3390/polym12112549 www.mdpi.com/journal/polymers
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