Abstract
Ethylene propylene diene monomer (EPDM) rubber composites containing in situ generated silica particles was prepared through a non-hydrolytic sol-gel (NHSG) method with silicon tetrachloride as precursor. The silica particles were homogenously dispersed in the EPDM matrix, but there were agglomerates at high silica contents. The swelling experiments showed a decrease in the crosslinking density of the vulcanized rubber due to the presence of the silica particles for both the composites prepared in the presence and absence of a coupling agent, bis-[-3-(triethoxysilyl)-propyl]-tetrasulfide (TESPT). Unlike the composites prepared through a hydrolytic sol-gel (HSG) method with TEOS as precursor, the TESPT did not seem to take part in the sol-gel reaction. The presence of TESPT influenced the interaction and dispersion of the silica particles in the EPDM matrix, which gave rise to increased thermal stability of the EPDM when compared to the composites prepared in the absence of TESPT. However, ethylene chloride and TESPT evaporated from the samples at temperatures below the EPDM decomposition range. The values of the Nielsen model parameters, that gave rise to a good agreement with the experimentally determined Young’s modulus values, indicated improved dispersion and reduced size of the silica aggregates in the EPDM matrix. There was also good agreement between the storage modulus and Young’s modulus values. The filler effectiveness (Factor C) indicated a mechanical stiffening effect and a thermal stability contribution by the filler, while the damping reduction (DR) values confirmed that the EPDM interacted strongly with the well dispersed silica particles and the polymer chain mobility was restricted. The tensile properties, however, were in some cases worse than those for the samples prepared through the HSG method in the presence of TEOS.
Highlights
The incorporation of inorganic oxides such as silica and/or titania into rubber matrices prepared by the conventional sol-gel routes led to materials with enhanced properties when compared to both unfilled rubbers and rubbers filled with traditionally prepared particles
Non-hydrolytic sol-gel synthesis of Ethylene propylene diene monomer (EPDM)-silica composites prepared in the absence and presence of a coupling agent was investigated
The presence of silica particles inhibited the crosslinking density of the vulcanized EPDM matrix for all the composites prepared in the absence and presence of TESPT
Summary
The incorporation of inorganic oxides such as silica and/or titania into rubber matrices prepared by the conventional sol-gel routes led to materials with enhanced properties when compared to both unfilled rubbers and rubbers filled with traditionally prepared particles. An alternative method to prepare organic-inorganic material is the non-hydrolytic sol-gel (NHSG) process, which can be used to produce metal oxides of high purity and crystallinity. In the past 20 years, several non-hydrolytic synthesis methods of oxides and mixed oxides have been described, involving the reaction of precursors (alkoxides, chlorides, acetylacetonates) with oxygen donors (ethers, alcohols, ketones) [4,5,6,7,8,9,10]. The authors focused on poly(methyl methacrylate) (PMMA)/titanium dioxide (TiO2) and epoxy resin/ titanium dioxide (TiO2) nanocomposites In both investigations benzyl alcohol (BzOH) was used as an oxygen donor and titanium(IV)chloride (TiCl4) as
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