Experimental Studies of Wear Resistance of Anti-Friction Coatings of Bimetal Fluid-Film Bearings

Alexey Yu. Rodichev; Alexander Babin; Andrey V. Gorin

doi:10.4028/www.scientific.net/MSF.946.325

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HomeMaterials Science ForumMaterials Science Forum Vol. 946Experimental Studies of Wear Resistance of...

Experimental Studies of Wear Resistance of Anti-Friction Coatings of Bimetal Fluid-Film Bearings

Abstract:

The paper presents experimental results of wear resistance measurements of anti-friction coatings of bimetal fluid-film bearings. As a result, nature and peculiarities of wear process of anti-friction coatings and steel base have been identified. An analysis of antifriction properties of studied copper-based coatings is presented. The paper also features recommendations for application of the studied coatings obtained by means of gas-flame spraying.

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Periodical:

Materials Science Forum (Volume 946)

Pages:

325-330

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.946.325

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Online since:

February 2019

Authors:

Alexey Yu. Rodichev*, Alexander Babin, Andrey V. Gorin

Keywords:

Anti-Friction Coating, Bimetal Bearing, Fluid-Film Bearing, Friction Coefficient, Friction Torque, Gas-Flame Spraying, Wear Resistance

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References

[1] B.I. Kostetsky, Friction, lubrication and wear in machines. Kiev: Engineering, (1970).

Google Scholar

[2] I.V. Kragelsky, Friction, wear and lubrication: A handbook in 2 books, Mechanical engineering, (1978).

Google Scholar

[3] A.V. Gorin, D.N. Eshutkin, M.A. Gorina, Hydraulic Impact Devices Utilization for Ground Wells Development: monograph, Oryol: State University-ESPC, (2015).

Google Scholar

[4] V.N. Tkachev, Wear and increase durability of agricultural machines, Mechanical Engineering, (1971).

Google Scholar

[5] A.Y. Rodichev, A.V. Sytin, V.V. Barabash, Technological increase of adhesion strength between antifriction coating and base in bimetal fluid-film bearings, Solid State Phenomena: International Conference on Industrial Engineering, ICIE-2017. Volume 265 (2017), 284-289.

DOI: 10.4028/www.scientific.net/ssp.265.284

Google Scholar

[6] G. Barsukov, V. Barabash, A. Rodichev, O. Kozhus, Technology of powder coatings by gas-flame spraying using oxyhydrogen flame, Materials Science Forum, Volume 906 (2017), 80-87.

DOI: 10.4028/www.scientific.net/msf.906.80

Google Scholar

[7] P.A. Vityaz, V.S. Ivashko, E.D. Manoilo, Theory and practice of gas-flame spraying, Minsk: Science and Technology, (1993).

Google Scholar

[8] A. Hasuy, O. Morigaki, Surfacing and spraying, Mechanical Engineering, (1985).

Google Scholar

[9] N.N. Dorozhkin, Hardening and restoration of machine parts by metal powders, Minsk: Science and Technology, (1988).

Google Scholar

[10] V.B. Khmelevskaya, The technology of plasma spraying for the production of bearings, Mashinostroitel, No. 9 (1997) 19-20.

Google Scholar

[11] National Standard 23.224-86 Provision of wear resistance of products. Methods for evaluating the wear resistance of restored parts.

Google Scholar