Abstract
Studies were carried out to combine vibration processing and oxidation in polymer working media, which allowed to combine three technological stages. Characteristic traces of direct and oblique impact of the polymer working medium, along the surface of the metal with oxide film, are determined. Studies of the structure of the nanorelief of the vibrational chemical-mechanical oxide coating and the main parameters of the process are.
Highlights
Vibration processing makes it possible to provide the effect of the combined action of the energy resulting from the mechanical and chemical components of the coating formation process
Given the versatility of vibration equipment, it can be used for coating formation processes, and for finishing and stripping and hardening operations, which is important because reduces the cost of production [1-7]
The study of the mechanism of formation of an oxide film is based on the methodology for determining the nature of the location, size, depth and shape of processing traces when working in an environment of polymer working media during oxidation and without an oxidizing solution and for establishing the quality of the film, the general appearance of the surface using optical electron microscopic research methods
Summary
Vibration processing makes it possible to provide the effect of the combined action of the energy resulting from the mechanical and chemical components of the coating formation process. Vibration processing provides a change in the physical and chemical properties of the surface layer of the part, as well as its activation. Given the versatility of vibration equipment, it can be used for coating formation processes, and for finishing and stripping and hardening operations, which is important because reduces the cost of production [1-7]
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