Compilation of analysis of tribotechnically modified composite polymer materials and their physicochemical, tribotechnical properties used in mechanical engineering
DOI:
https://doi.org/10.56143/2xvcc569Keywords:
Composite polymer materials, tribotechnics, coatings, friction coefficient, wear, organomineral fillers, modification, mechanical engineering, physicochemical properties, mechanochemical changes, static electricity, high load, cotton industry, service life, optimal composition.Abstract
His scientific article provides a detailed description of the modern development trends of modified composite
polymer materials used in mechanical engineering and other industries, their creation, tribotechnical
properties, structural structure and practical application. The article presents the results of laboratory tests of
polymer-based composite materials modified with organomineral fillers, their physicomechanical and
tribological properties. The use of composite materials is of particular importance for parts of machines and
mechanisms operating under high friction and load conditions. Such materials reduce the coefficient of friction
on surfaces, are wear-resistant, reduce the generation of static electricity and extend their service life. In
particular, their use in the fields of cotton processing, chemical industry, agricultural machinery and energy
significantly increases efficiency. The article also analyzes the possibilities of improving the tribotechnical
properties of composite polymer materials through their physicochemical and mechanochemical modification
on a scientific basis. Based on various structural components and their ratios, optimal composite compositions
were developed, and the most suitable options were identified based on the results of experiments conducted
in laboratory conditions. The composite polymer materials developed in this scientific work are considered
one of the promising areas for the mechanical engineering industry.
