Investigation of surface discharges on different polymeric materials under HVAC in atmospheric air

Abstract

Surface discharge on dielectric materials seriously restricts the performance of many electrical and electronic systems. Based on Pockels electro-optic effect, the surface discharge on polymeric insulating materials has been investigated under HVAC in Atmospheric Air. Different polymer materials such as polyimide (PI), polyethylene terephthalate (PET) and polyvinylidene fluoride (PVDF) films are employed. One single cycle of sinusoidal HVAC with peak value of 5 kV and duration time of 50ms is applied on a needle-plate electrode configuration and the applied voltage starts from the positive or negative half-cycle, respectively. During the development process of surface discharge on different materials, the dynamic observation of surface charge distribution is recorded in a cycle by a high speed camera. The experimental results show that there is significant voltage polarity effect observed, and the radius of negative charge distribution is smaller than that of positive charges. The positive charge density on PET and PI is lower than that on PVDF, which are closely related to the enhancement of electric field by permittivity and thickness of polymer films. Moreover, PI, PET and PVDF samples behave different surface charge distribution. Positive streamer channels on PI and PET are gradually growing into a snake-like pattern with voltage applying, and positive streamers on PVDF develop instantaneously and exhibit as a regular spoke-like pattern. The influence factors on different discharge patterns are discussed in the paper.