Gradient multilayer tribilogical coatings based on Mo-S-Ti-C formed by hybrid ion-plasma methods

Abstract

Mechanical, physical and tribological properties of layer-gradient multi-component coatings based on the Mo-S-Ti-C composition are investigated. The coatings are formed by combining the magnetron sputtering and the hybrid magnetron and vacuum arc deposition assisted by a gas plasma generator. A correlation is established between the physic mechanical and tribological properties of the resulting coatings, which allows identifying their potential applications. The physical principles of the combined technologies of lowtemperature ion-plasma deposition of tribological Mo-S-Ti-C coatings onto hardened steel machine parts are developed.

Original language	English
Pages (from-to)	1232-1240
Number of pages	9
Journal	Russian Physics Journal
Volume	54
Issue number	11
DOIs	https://doi.org/10.1007/s11182-012-9736-2
Publication status	Published - Apr 2012

Keywords

adhesion
composition and property gradient
friction coefficient
hardness
ion-plasma methods
multilayer coatings
tribology
wear resistance

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1007/s11182-012-9736-2

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Savostikov, V. M., Potekaev, A. I., Tabachenko, A. N., Shulepov, I. A., Kuzmichenko, V. M., & Didenko, A. A. (2012). Gradient multilayer tribilogical coatings based on Mo-S-Ti-C formed by hybrid ion-plasma methods. Russian Physics Journal, 54(11), 1232-1240. https://doi.org/10.1007/s11182-012-9736-2

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title = "Gradient multilayer tribilogical coatings based on Mo-S-Ti-C formed by hybrid ion-plasma methods",

abstract = "Mechanical, physical and tribological properties of layer-gradient multi-component coatings based on the Mo-S-Ti-C composition are investigated. The coatings are formed by combining the magnetron sputtering and the hybrid magnetron and vacuum arc deposition assisted by a gas plasma generator. A correlation is established between the physic mechanical and tribological properties of the resulting coatings, which allows identifying their potential applications. The physical principles of the combined technologies of lowtemperature ion-plasma deposition of tribological Mo-S-Ti-C coatings onto hardened steel machine parts are developed.",

keywords = "adhesion, composition and property gradient, friction coefficient, hardness, ion-plasma methods, multilayer coatings, tribology, wear resistance",

author = "Savostikov, {V. M.} and Potekaev, {A. I.} and Tabachenko, {A. N.} and Shulepov, {I. A.} and Kuzmichenko, {V. M.} and Didenko, {A. A.}",

year = "2012",

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language = "English",

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AU - Savostikov, V. M.

AU - Potekaev, A. I.

AU - Tabachenko, A. N.

AU - Shulepov, I. A.

AU - Kuzmichenko, V. M.

AU - Didenko, A. A.

PY - 2012/4

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N2 - Mechanical, physical and tribological properties of layer-gradient multi-component coatings based on the Mo-S-Ti-C composition are investigated. The coatings are formed by combining the magnetron sputtering and the hybrid magnetron and vacuum arc deposition assisted by a gas plasma generator. A correlation is established between the physic mechanical and tribological properties of the resulting coatings, which allows identifying their potential applications. The physical principles of the combined technologies of lowtemperature ion-plasma deposition of tribological Mo-S-Ti-C coatings onto hardened steel machine parts are developed.

AB - Mechanical, physical and tribological properties of layer-gradient multi-component coatings based on the Mo-S-Ti-C composition are investigated. The coatings are formed by combining the magnetron sputtering and the hybrid magnetron and vacuum arc deposition assisted by a gas plasma generator. A correlation is established between the physic mechanical and tribological properties of the resulting coatings, which allows identifying their potential applications. The physical principles of the combined technologies of lowtemperature ion-plasma deposition of tribological Mo-S-Ti-C coatings onto hardened steel machine parts are developed.

KW - adhesion

KW - composition and property gradient

KW - friction coefficient

KW - hardness

KW - ion-plasma methods

KW - multilayer coatings

KW - tribology

KW - wear resistance

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