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Improving Mechanical, Electrical and Thermal Properties of Fluororubber by Constructing Interconnected Carbon Nanotube Networks with Chemical Bonds and F–H Polar Interactions

Yurou Chen, Yadong Wu, Jun Li, Xuqiang Peng, Shun Wang, Huile Jin

2022Polymers22 citationsDOIOpen Access PDF

Abstract

To improve the properties of fluororubber (FKM), aminated carbon nanotubes (CNTs-NH2) and acidified carbon nanotubes (CNTs-COOH) were introduced to modulate the interfacial interactions in FKM composites. The effects of chemical binding and F–H polar interactions between CNTs-NH2, CNTs-COOH, and FKM on the mechanical, electrical, thermal, and wear properties of the FKM composites were systematically investigated. Compared to the pristine FKM, the tensile strength, modulus at 100% strain, hardness, thermal conductivity, carbon residue rate, and electrical conductivity of CNTs-NH2/CNTs-COOH/FKM were increased by 112.2%, 587.5%, 44.2%, 37.0%, 293.5%, and nine orders of magnitude, respectively. In addition, the wear volume of CNTs-NH2/CNTs-COOH/FKM was reduced by 29.9%. This method provides a new and effective way to develop and design high-performance fluororubber composites.

Topics & Concepts

Carbon nanotubeMaterials scienceComposite materialModulusUltimate tensile strengthTensile strainThermalElectrical resistivity and conductivityThermal conductivityEngineeringMeteorologyElectrical engineeringPhysicsDielectric materials and actuatorsPolymer Nanocomposite Synthesis and IrradiationTribology and Wear Analysis
Improving Mechanical, Electrical and Thermal Properties of Fluororubber by Constructing Interconnected Carbon Nanotube Networks with Chemical Bonds and F–H Polar Interactions | Litcius