Preparation Methods and Properties of CNT/CF/G Carbon-Based Nano-Conductive Silicone Rubber

Carbon-based nano-conductive silicone rubber is a kind of composite conductive polymer material that has good electrical and thermal conductivities and high magnetic flux. It has good application prospects for replacing most traditional conductive materials, but its mechanical and tensile strengths are poor, which limit its applications. In this study, carbon fiber (CF), graphene (G) and carbon nanotubes (CNT) are used as fillers to prepare carbon-based nano-conductive silicone rubber via solution blending, and the preparation methods and properties are analyzed. The results show that when the carbon fiber content is 7.5 wt%, the volume resistivity of carbon fiber conductive silicone rubber is 9.5 x 10(4) Omega center dot cm, the surface resistance is 2.88 x 10(5) Omega, and the tensile strength reaches 2.12 Mpa. When the graphene content is 5.5 wt%, the volume resistivity of graphene conductive silicone rubber is 8.7 x 10(4) Omega center dot cm, and the surface resistance is 2.4 x 10(6) Omega. When the carbon nanotube content is 1.25 wt%, the volume resistivity of carbon nanotube conductive silicone rubber is 1.34 x 10(4) Omega center dot cm, and the surface resistance is 1.0 x 10(6) Omega. The three conductive nano-fillers in the blended carbon nano-conductive silicone rubber form a stable three-dimensional composite conductive network, which enhances the conductivity and stability. When the tensile rate is 520%, the resistance of the blended rubber increases from 2.69 x 10(3) to 9.66 x 10(4) W, and the rubber maintains good resilience and tensile sensitivity under repeated stretching. The results show that the proposed blended carbon nano-conductive silicone rubber has good properties and great application prospects, verifying the employed research method and showing the credibility of the research results.

Automated summary

Carbon-based nano-conductive silicone rubber with carbon fiber, graphene and carbon nanotubes as fillers was prepared via solution blending. The results showed that the carbon fiber conductive silicone rubber had a volume resistivity of 9.5 x 10（4）Omega cm and a surface resistance of 2.88 x 10（5）Omega, while the graphene conductive silicone rubber had a volume resistivity of 8.7 x 10（4）Omega cm and a surface resistance of 2.4 x 10（6）Omega. The carbon nanotube conductive silicone rubber had a volume resistivity of 1.34 x 10（4）Omega cm and a surface resistance of 1.0 x 10（6）Omega. The blended carbon nano-conductive silicone rubber exhibited enhanced conductivity and stability due to the formation of a stable three-dimensional composite conductive network.