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Τετάρτη 9 Αυγούστου 2017

Control of the cell structure of microcellular silicone rubber/nanographite foam for enhanced mechanical performance

Publication date: 5 November 2017
Source:Materials & Design, Volume 133
Author(s): Jianwei Bai, Xia Liao, Erbo Huang, Yong Luo, Qi Yang, Guangxian Li
Microcellular silicone rubber/nanographite foam with the smallest cell diameter and the largest cell density compared to the previous studies was prepared using supercritical carbon dioxide as an environmentally benign foaming agent in this study. Both the cell microstructure and properties of porous composite were investigated in detail. In silicone rubber/nanographite system, the incorporation of nanographite into silicone rubber significantly induced heterogeneous bubble nucleation and enhanced the matrix strength, which resulted in the decreased average cell diameter from 4.97 to 1.12μm and the increased cell density from 8.87×108cells/cm3 to 1.25×1010cells/cm3. The microcellular rubber foam with decreased cell size, increased cell density and narrow cell distribution was corresponded to the excellent compressive strength and higher hardness, which reduced the content of silica. Furthermore, the thermal decomposition temperature of the obtained foam increased from 380°C to 413°C due to the introduction of nanographite. The silicone rubber/nanographite foam with improved performance possessed potential in wide applications.

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