Adhesion of a Vibration Mechanochemical Solid-Lubricant MoS2 Coating

It is shown that in the course of vibration-wave treatment a solid lubricant coating is formed on steel from molybdenum-disulfide powder. The morphological features of the coating are investigated. Using electron probe microanalysis and infrared spectroscopy, it is found that the chemical compositio...

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Bibliographic Details
Published in:Surface investigation, x-ray, synchrotron and neutron techniques x-ray, synchrotron and neutron techniques, 2019-09, Vol.13 (5), p.848-854
Main Authors: Antonova, N. M., Shorkin, V. S., Romashin, S. N., Babichev, A.P.
Format: Article
Language:English
Subjects:
Adhesion
Adhesives
Chemical composition
Chemistry and Materials Science
Electron probe microanalysis
Electron probes
Materials Science
Molybdenum disulfide
Organic chemistry
Protective coatings
Solid lubricants
Surfaces and Interfaces
Thin Films
Vibration
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Summary:It is shown that in the course of vibration-wave treatment a solid lubricant coating is formed on steel from molybdenum-disulfide powder. The morphological features of the coating are investigated. Using electron probe microanalysis and infrared spectroscopy, it is found that the chemical composition of the coating both during vibration processing and after friction tests remains unchanged. A theoretical estimation is performed for the energy of adhesion between the MoS 2 coating and the protected steel surface using a model that takes into account the pairwise and triple potential interactions between the particles of the contacting materials. It is shown that the adhesive interaction between MoS 2 particles and steel is significantly more intense than the adhesive interaction in the system of MoS 2 –MoS 2 particles. The energy of adhesive interaction is calculated for the MoS 2 –MoS 2 (–0.04 × 10 10 J/m 3 ), MoS 2 –Fe pairs (–0.54 × 10 10 J/m 3 ). Theoretical calculations confirm the results of experiments on studying the adhesive properties of the MoS 2 coating.
ISSN:1027-4510
1819-7094
DOI:10.1134/S1027451019040025