Research on Wear Resistance of Multifunctional Coatings Used in the Manufacture of Art and Industrial Products

Abstract:

Article Preview

This article deals with the issues of assessment of wear resistance of multifunctional coats used in the manufacture of art and industrial products. The article shows that in the production process of such products protective&decorative coatings are widely used. They must possess a complex of features, among which wear-resistance occupies a front place. To determine this parameter, the authors developed a special technique for accelerated testing and upgraded the test benches, which makes it possible to assess the abrasion resistance of multifunctional coatings. Reliable results were achieved by increasing the accuracy of recording equipment with the use of information technologies. Implemented modernization of the test benches allowed increasing the efficiency and reliability of the test results, as well as provided the expansion of the functional capabilities due to the maximum approximation of the test conditions to the real operating conditions of the art and industrial products. The developed technique of the accelerated testing allows assessing the resistance to abrasion of multifunctional coatings and thereby predicting the service life of the product for artistic and industrial purposes.

Info:

Periodical:

Edited by:

Dr. Denis Solovev

Pages:

670-674

Citation:

A.K. Prokopenko et al., "Research on Wear Resistance of Multifunctional Coatings Used in the Manufacture of Art and Industrial Products", Materials Science Forum, Vol. 945, pp. 670-674, 2019

Online since:

February 2019

Export:

Price:

$41.00

* - Corresponding Author

[1] Belyaev V.I., Volkodaeva I.B., Prokopenko A.K., Fyodorov M.V., Innovative technologies of applying multifunctional coatings to art products. Moscow. (2015).

[2] Lutsak D., Prysyazhnyuk P., Burda M., Aulin V. Development of a technique and device for tribotechnical testing of materials in friction conditions on loose abrasive, Eastern-European Journal of Enterprise Technologies. 5 (2016) 19-26.

DOI: https://doi.org/10.15587/1729-4061.2016.79913

[3] Kambalov V.S. Methods and tools for testing friction and wear of structural materials and lubricants: reference book. Moscow: Mechanical Engineering, (2008).

[4] Kuksyonova L.I., Lapteva V.G., Kolmanov A.G. and others., Methods for testing friction and wear. Moscow: Intermet Engineering. (2001).

[5] Sutyagin O.V., Meshkov V.V., Medintsev S.V., Rykov S.P. Design and technique for tribotechnical testing of materials and coatings, Mechanics and physics of processes on the surface and in the contact of solids, parts of technological and power equipment. 9 (2016) 36-41.

[6] V.A. Minaev, G.A. Sarychev, M.I. Shakhnovsky, V.M. Shchavelin, Patent of RF No 1295295 IPC4 G 01 N 3/56 (2009).

[7] V.Y. Belousov, A.V. Pilipchenko, G.M. Sorokin, L.D. Lutsak, Patent of RF No 1320707 IPC4 G 01 N 3/56 Method for determination of materials wear resistance by a pendulum sclerometer, (2015).

[8] A.A. Barzov, A.A. Vdovin, S.A. Gavrilov, Patent of RF No 1370520 IPC4 G 01 N 3/56 Method for testing friction pairs for wear resistance. (2016).

[9] D.M. Khanin, A.G. Sirota, E.M. Karonik, Patent of RF No 1404893 IPC4 G 01 N 3/56 Method for determination of abrasive wear of plastics. (2010).

[10] G.S. Ivasishin, Patent of RF No 1619134 IPC5 G 01 N 3/56. (2005).

[11] V.N. Vinogradov, L.S. Livshits, S.A. Kuzminsky, A.V. Kondratov, S.M. Levin, Patent of RF No 1627912 IPC5 G 01 N 3/56. (2012).

[12] Y.G. Kabaldin, Y.V. Dunaevsky, O.B. Kovalyov, Patent of RF No 1702244 IPC5 G 01 N 3/58. (2015).

[13] V.F. Berdnikov, O.I. Pushkaryov, Patent of RF No 1786393 IPC5 G 01 N 3/56. (2016).

[14] V.V. Romanov, E.N. Voloshenko, Patent of RF No 1797003 IPC5 G 01 N 3/56. (2011).

[15] I.V. Kragelsky, E.A. Marchenko, A.O. Sheivekhman, Patent of RF No 875262 G 01 N 3/56. (2008).

[16] Sutyagin O.V., Meshkov V.V., Medintsev S.V., Universal device for tribotechnical testing of materials and coatings, Factory laboratory. Diagnostics of materials. 82 (2016) 62-65.

[17] Golubev A.P., Prokopenko A.K., Belyaev V.I., Lokhmanov V.N., patent of RF No 136 170. (2013).

[18] Basinyuk V.L., Kalinichenko A.S., Mardosevich E.I., Methodical approaches to the creation of automated accelerated tests of lubricants tribotechnical properties, Relevant problems of mechanical engineering. 4 (2015) 391-393.

[19] Buyanovsky I.A., Provotorova E.A., Bolshakov A.N., Levchenko V.A., Minimization of the scope of experimental tribological tests on the reciprocating motion friction machine, Friction and wear. 38 (2017) 201-207.

[20] Prokopenko A.K., Golubev A.P., Tribotechnical studies in the mode of wear-free friction,. In the book: Tribology – Works on mechanical engineering for XIth International Science and Technology Conference. Institute of Machines Science named after A.A. Blagonravov. (2016).