This work studied rubber-clay nanocomposites, in particular: filler-elastomer interface, multiscale clay organization in the rubber matrix, both in the absence and in the presence of C black, hybrid clay/C black filler network, dynamic-mech. properties of raw and S-cured compds. Studies performed with various techniques such as ESR spin labeling, Solid State NMR, TEM and x-ray diffraction pattern allowed to observe a nice distribution and dispersion of the layered clay, with the development of filler-matrix interface. Composites were prepd. with either intercalated or exfoliated organoclays, both in the absence and in the presence of C black, observing in the latter case the formation of a hybrid filler network formed by layered and spherical particles. Dynamic-mech. studies revealed that the replacement of a part of C black with an organoclay promotes a stronger filler-rubber interaction. The exfoliated organoclay is demonstrated as the ideal filler for compds. that have to explore a wide range of temps., as it gives rise to a better stability of properties.
Galimberti, M., Giudice, S., Coombs, M., Giannini, L., Buttafava, A., Dondi, D., et al. (2010). Filler matrix interface characteristics and mechanical reinforcement in elastomeric nanocomposites. In Book of Abstracts_Technical Meeting - American Chemical Society, Rubber Division, T178th. Akron, Ohio.
Filler matrix interface characteristics and mechanical reinforcement in elastomeric nanocomposites
BRACCO, SILVIA;CATTANEO, ALICE SILVIA;SOZZANI, PIERO ERNESTO;
2010
Abstract
This work studied rubber-clay nanocomposites, in particular: filler-elastomer interface, multiscale clay organization in the rubber matrix, both in the absence and in the presence of C black, hybrid clay/C black filler network, dynamic-mech. properties of raw and S-cured compds. Studies performed with various techniques such as ESR spin labeling, Solid State NMR, TEM and x-ray diffraction pattern allowed to observe a nice distribution and dispersion of the layered clay, with the development of filler-matrix interface. Composites were prepd. with either intercalated or exfoliated organoclays, both in the absence and in the presence of C black, observing in the latter case the formation of a hybrid filler network formed by layered and spherical particles. Dynamic-mech. studies revealed that the replacement of a part of C black with an organoclay promotes a stronger filler-rubber interaction. The exfoliated organoclay is demonstrated as the ideal filler for compds. that have to explore a wide range of temps., as it gives rise to a better stability of properties.
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