Coatings have a wide range of functions, including corrosion protection, wear resistance, insulation, conductivity, and aesthetic decoration. However, the coating will inevitably be damaged during use, making it crucial to
monitor the friction state of coatings in real time. In this study, a sensing system for monitoring the friction state of coatings was designed by taking advantage of the differences in the triboelectric current signal of different
coatings. Silicone resin (Si) coating and Epoxy resin (EP) coating were successively sprayed on the steel base, with EP coating as the protective layer and Si coating as the early warning layer. At the same time, the friction
coefficient and triboelectric current of the steel ball and the Si/EP coating during the friction process were collected, and the internal relationship was studied in detail. The experimental results show that the friction
coefficient and triboelectric current are very well correlated under different experimental conditions. The friction state of the Si/EP coating can be obtained according to the change of triboelectric current. Based on the change of the triboelectric current in the friction process, a sensor system for real-time monitoring of coating friction state is designed, which provides a reliable method for the monitoring of coating friction and wear.