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Mechanical, dielectric, and thermal properties of fluorosilicone rubber composites filled with silica/multiwall carbon nanotube hybrid fillers

Changbin Tan, Guangliang Liu, Hao Yao, Xiangyang Li, Gen Li, Long Qing, Yan Yang

2020Journal of Applied Polymer Science19 citationsDOI

Abstract

Abstract In this work, hybrid fillers consist of modified silica (SiO 2 ) and multiwalled carbon nanotube (MWCNT) were used to improve the mechanical, dielectric, and thermal properties of fluorosilicone (FSR) composites via a direct mechanical mixing method. With the increase of CNT loading in SiO 2 /CNT hybrid loading ratio, the tensile properties, dielectric constant, electrical conductivity, and thermal properties all increase without a sharp sacrifice of flexibility. The dielectric constant of FSR‐S15/C5 achieved 7,370 @1 kHz, which is about four orders of the FSR‐S20, and the dielectric loss remains as low as 0.676 @1 kHz. Therefore, the linkage of SiO 2 and FSR chains not only enhances the interfacial interaction between the fillers and FSR matrix but also decreases the agglomeration of the fillers in matrix. What is more, modified SiO 2 and CNT were designed as the effective hybrid filler to improve the performance of the polymeric matrix through synergic effect.

Topics & Concepts

Materials scienceComposite materialDielectricCarbon nanotubeNatural rubberUltimate tensile strengthThermal conductivityDielectric lossOptoelectronicsDielectric materials and actuatorsPolymer Nanocomposites and PropertiesElectromagnetic wave absorption materials
Mechanical, dielectric, and thermal properties of fluorosilicone rubber composites filled with silica/multiwall carbon nanotube hybrid fillers | Litcius