Abstract
UDC 537.528:621.9.048:534
https://doi.org/10.52577/eom.2023.59.2.21
A model of the physical properties and structure changes inside the gap between the swcnt and surface is proposed. The swcnt was viewed in the model as anode, the surface as cathode, and the gap between them as the time-changed homogeneous media. The electrical erosion occurs in this gap according to probabilistic nature. The aim of the paper was to propose the model to stimulate particle emissions from the gap, namely, to ejects particles from the space to prevent electrical corrosion. This stochastic model investigates the stream of the micro- and nanosized particles generated and detached from the surfaces of the anode and the cathode considering the movement of the particle flow, orientation of the gap in space, and the stream density change. The result demonstrates the impact of the orientation angle of the space on the parameters of the erosion particle flow. The findings are in a good agreement with the experimental studies of many investigations.
Keywords: wear fraction, probabilistic nature, uniform medium, erosion zone, nanotube, spacing arrangement.