Leveraging IT for Enhanced Characterization of SiC and Ni Epoxy Composites in High Voltage Applications

Tools have a major impact on the precision, effectiveness, and cost of manufacturing composite structures. In order to provide lightweight, affordable, long-lasting, and useful tools for producing high-performance composite structures, industry and academia must work closely together to leverage and investigate new developments in materials, structures, and tool manufacturing technologies. This is because the performance of composites components is becoming more and more desired. It is frequently problematic to provide insulation at higher voltages (kV range). In this work, we created a variety of epoxy resin samples utilising nickel and silicon carbide, two conducting and non-conducting fillers. Using the centrifugal casting procedure, samples were created. We examined the composite's breakdown voltage, which will eventually offer insulation at greater voltages. The sample with a higher filler concentration had a good breakdown voltage, according to the data.