1. Dyachkova, L.N., Feldshtein, E.E., Vityaz, P.A., Błoch, B.M., and Voronetskaya, L.Ya., Effect of copper content on tribological characteristics of Fe–C–Cu composites, J. Frict. Wear, 2018, vol. 39, no. 1, pp. 1–5.
2. Sheleg, V.K., Levantsevich, M.A., Pilipchuk, E.V., and Dema, R.R., Study of the performance of copper coatings formed by electroplating and deformation cladding with a flexible tool, J. Frict. Wear, 2018, vol. 39, no. 1, pp. 6–11.
3. Sachek, B.Ya., Mezrin, A.M., Arkhipov, V.E., and Londarskij, A.F., Modification of the tribocouplings by spraying metal coatings to improve their fretting resistance, J. Frict. Wear, 2018, vol. 39, no. 4, pp. 299–303.
4. Potapov, G.K. and Balabanov, V.I., Finishing anti-friction non-abrasive treatment (FANT) of cylinder liners and necks of engine crankshafts, Eff. Bezyznosnosti Tribotekhnol., 1994, nos. 3–4, pp. 48–53.
5. Savrai, R., Malyshina, I.Yu., Makarov, A.V., Osintseva, A.L., Rogovaya, S.A., and Kolobylin, Yu.M., Influence of laser alloying with Cu–Zn–Ti and Si–Cu powder mixtures on the structure and properties of a cast aluminum alloy, Obrab. Met.: Tekhnol., Oborud.,
Instrum., 2019, vol. 21, no. 4, pp. 7084.