Impedance spectroscopy study of carbon nanotube–glass microfiber composites

The method of fabricating composites composed of a glass micro ber matrix and the conductive nano bers is proposed. The nano bers incorporating single-walled carbon nanotubes (SWCNTs) and an organic material are spread over the surface of glass micro bers and in some areas between micro bers are coupled together into a branched network. The contributions of intra- CNT and inter-CNT conduction mechanisms in the composites with different contents of SWCNTs are evaluated from the analysis of their impedance spectra. The crossover between two conduction mechanisms is observed at a content of SWCNTs of about 0.1 wt. %.

Impedance spectroscopy study of carbon nanotube–glass microfiber composites

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Process development of pre-impregnated hybrid thin-ply composites

Multi-scale characterization and modeling of notched strength and translaminar fracture in hybrid thin-ply composites based on different carbon fiber grades

Semiconductor-based device architectures in multimaterial fibers

Process development of pre-impregnated hybrid thin-ply composites

Multi-scale characterization and modeling of notched strength and translaminar fracture in hybrid thin-ply composites based on different carbon fiber grades

Semiconductor-based device architectures in multimaterial fibers