The tribological properties and the microstructure of Cu–Mo–S coatings

Coatings on the basis of the Cu–Mo–S system were deposited on the Cu substrate by the method of pulse magnetron sputtering of a special composite target. The wear resistance of the coatings with a copper friction pair was studied using the tribological tests in argon and the air environment. The coa...

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Schlagworte:	Argon Coefficient of friction Copper Friction Friction resistance Magnetron sputtering Molybdenum Protective coatings Substrates Tribology Wear rate Wear resistance
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description	Coatings on the basis of the Cu–Mo–S system were deposited on the Cu substrate by the method of pulse magnetron sputtering of a special composite target. The wear resistance of the coatings with a copper friction pair was studied using the tribological tests in argon and the air environment. The coating properties were investigated using a variety of methods including SEM, TEM/EDS, and XRD. The fiber-globular structure of the coatings was evaluated. The investigation showed that the Cu–Mo–S coatings could decrease the wear rate of a copper friction pair in ~350 times in the argon atmosphere. A decrease of the friction coefficient of the copper friction pair from 0.59 to 0.27 (with a coating) was observed during the tribological tests in the air environment.
doi_str_mv	10.1063/1.4932893
format	Conference Proceeding
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The wear resistance of the coatings with a copper friction pair was studied using the tribological tests in argon and the air environment. The coating properties were investigated using a variety of methods including SEM, TEM/EDS, and XRD. The fiber-globular structure of the coatings was evaluated. The investigation showed that the Cu–Mo–S coatings could decrease the wear rate of a copper friction pair in ~350 times in the argon atmosphere. 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source	AIP Journals Complete
subjects	Argon Coefficient of friction Copper Friction Friction resistance Magnetron sputtering Molybdenum Protective coatings Substrates Tribology Wear rate Wear resistance
title	The tribological properties and the microstructure of Cu–Mo–S coatings
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