Investigation on surface insulating performance of epoxy-alumina and epoxy-zinc oxide nanocomposites at cryogenic temperatures

The electrical insulation properties of epoxy resin at low temperatures are crucial for the encapsulation of superconducting magnets. Nanoparticle filling serves as an effective approach to enhance the electrical insulation performance of epoxy resin. This paper comparatively investigates the surface insulating properties of epoxy-alumina (Al₂O₃/EP) and epoxy-zinc oxide (ZnO/EP) nanocomposites at cryogenic temperatures from 10 K to 299 K. The addition of nanofillers introduces more traps in the epoxy nanocomposites, which makes the time scales of the above-surface and sub-surface processes coincide with each other when the temperature is further reduced (lower than 80 K), resulting in a downward trend in the flashover voltage of the epoxy nanocomposite when the temperature is further reduced. Experimental results demonstrate that Al₂O₃ nanofillers can improve the surface insulation performance of the nanocomposite more comprehensively than ZnO nanofillers. Al₂O₃/EP has a higher flashover strength than neat epoxy, regardless of temperature.