Investigation the conductivity of carbon fiber composites focusing on measurement techniques under dynamic and static loads

Abstract

Carbon fibers (CFs) have been e polymeric xtensively investigated in several applications because Carbon fibers have unique characteristics in comparison to other materials. CFs have superior qualities for example as high mechanical strength, Young's modulus, tenacity, and thermal conductivity when reinforced with other composites. Dynamic load measurements are highly conductive than static load measurements. Conductive carbon yarn fibers are much better than all other fiber structures in terms of conductivity. The conductivity of carbon fiber has proven that this is the best material for the aircraft industry because of its many advantages. This study project is systematic and provides the latest technology that uses the reformed conductivity of carbon fibers. The focus of the present study is a review of an assortment of studies related to conductive nanofibers. It has been established that a correlation exists among the factors that show a dynamic character in the uses adopted for these conductive nanofibers. This paper examines the morphology, structure and composition, electrical conductivity, and mechanical, and electrochemical attributes that inform the use of these conductive nanofibers which have enabled these fibers to be used in various applications.