Composites based on a commercial grade polystyrene resin containing 5 wt% of non commercial perovskite particles were prepared by melt blending and analyzed in terms of dynamic-mechanical behavior and morphology. In particular, micro- and nanosized perovskites La0,5Sr0,5MnO 3, synthesized by using an innovative microwave-assisted hydrothermal route, were considered. Flexural dynamic-mechanical evaluations in terms of storage modulus showed better performance for nanofilled systems with respect to ones containing micro particles: evidence explained also in terms of different reinforcing mechanisms normally occurring with variation of filler size and temperature. Finally, preliminary morphological observations emphasized the achievement of a satisfactory level of filler dispersion for micro composite formulations. © 2011 Published by Elsevier Ltd.
Dynamic-mechanical behavior and morphology of polystyrene/perovskite composites: Effects of filler size / Russo, P.; Acierno, D.; Corradi, A.; Leonelli, C.. - In: PROCEDIA ENGINEERING. - ISSN 1877-7058. - 10:(2011), pp. 1017-1022. (Intervento presentato al convegno 11th International Conference on the mechanical behavior of Materials (ICM11) tenutosi a Erba (COMO), Italy nel 5-9 giugno 2011) [10.1016/j.proeng.2011.04.167].
Dynamic-mechanical behavior and morphology of polystyrene/perovskite composites: Effects of filler size
Corradi A.Conceptualization
;Leonelli C.Investigation
2011
Abstract
Composites based on a commercial grade polystyrene resin containing 5 wt% of non commercial perovskite particles were prepared by melt blending and analyzed in terms of dynamic-mechanical behavior and morphology. In particular, micro- and nanosized perovskites La0,5Sr0,5MnO 3, synthesized by using an innovative microwave-assisted hydrothermal route, were considered. Flexural dynamic-mechanical evaluations in terms of storage modulus showed better performance for nanofilled systems with respect to ones containing micro particles: evidence explained also in terms of different reinforcing mechanisms normally occurring with variation of filler size and temperature. Finally, preliminary morphological observations emphasized the achievement of a satisfactory level of filler dispersion for micro composite formulations. © 2011 Published by Elsevier Ltd.
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