REVEALING PATTERNS OF CHANGE IN THE TRIBOLOGICAL EFFICIENCY OF COMPOSITE MATERIALS FOR MACHINE PARTS BASED ON PHENYLONE AND POLYAMIDE REINFORCED WITH ARIMIDE-T AND FULLERENE.

Autor: Aulin, Viktor, Rogovskii, Ivan, Lyashuk, Oleh, Tykhyi, Andrii, Kuzyk, Alexander, Dvornyk, Andrii, Derkach, Oleksiy, Lysenko, Serhii, Banniy, Oleksandr, Hrynkiv, Andrii
Předmět:
Zdroj: Eastern-European Journal of Enterprise Technologies; 2024, Vol. 129 Issue 12, p6-18, 13p
Abstrakt: The object of the study is the process of changing tribological efficiency according to tribotechnical characteristics (wear intensity, friction coefficient, temperature in the contact zone) of composites based on phenylone C-1 and polyamide PA-6 with arimide-T filler and fullerene C-60. The study solved the problem of obtaining composites with high wear resistance. Based on the results of research, it was found that varying the content of arimide-T makes it possible to obtain composites with different patterns of changes in tribotechnical characteristics under conditions of dry friction, lubrication with water and I-50 oil. Composites with the composition: phenylone C-1+15 wt. have the maximum tribological efficiency. % arimide-T+3 wt. % fullerene C-60 and polyamide PA-6+30 wt. % arimide-T+3 wt. % fullerene C-60. Phenylone C-1 has destructive properties when working in the environment of water and temperature in the friction zone. Its reinforcement with arimide-T and fullerene C60 gave positive results of a complex of tribotechnical characteristics under these conditions. It was found that the wear of composites based on phenylone C-1 in I-50 oil is two orders of magnitude lower than in water. Research of samples from the obtained composites based on phenylone C-1 and polyamide PA-6, reinforced with the optimal content of arimide-T and fullerene C60, showed that their wear resistance when lubricated with oil is 3.5...4.0 times greater than the wear resistance of bronze. An applied aspect of the reported results is the introduction of manufacturing technologies and restoration of machine parts from the proposed composites. It has been proven that their optimal composition contributes to high tribological efficiency and could provide the required level of wear resistance and reliability of resource-determining nodes, systems, and machine assemblies. The results could be used by machine-building and repair-technological enterprises [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index