Abstract
The wear of steel components of dynamically loaded tribocouplings is considered. The relation between the wear resistance of metal and the structural homogeneity of the surface layer is noted. The model of the structural failure of the surface during friction at single-component, bicomponent, and three-component dynamic loading is presented. The tribosystem wear resistance concept is proposed based on using the principles of structural energy adaptation of materials by friction at various kinds of loading. The principles of surface engineering and the algorithm of controlling the wear resistance of steel by using the features of forming the nanostructural state of the surface layer are recommended.
Similar content being viewed by others
REFERENCES
Shejko, S., Sukhomlin, G., Mishchenko, V., et al., Formation of the grain boundary structure of low-alloyed steels in the process of plastic deformation, Proc. Materials Science and Technology Conf. and Exhibition 2018 (MS&T’18), Red Hook, NY: Curran Assoc., 2019, pp. 746–753.
Belikov, S., Shalomeev, V., Tsivirko, E., et al., Microalloyed magnesium alloys with high complex of properties, Proc. Materials Science and Technology Conf. and Exhibition 2017 (MS&T’17), Red Hook, NY: Curran Assoc., 2018, pp. 84–91.
Tsyganov, V., Ivschenko, L., Byalik, H., et al., Creation of wearproof eutecticum composition materials for the details of the high temperature dynamic systems, Proc. Materials Science and Technology Conf. and Exhibition 2019 (MS&T’19), Red Hook, NY: Curran Assoc., 2020, pp. 450–456.
Sereda, B., Belokon, Y., Sheyko, S., and Sereda, D., The research of influence alloying elements on processes structure formation in stamp steel, Proc. AIST Steel Properties and Applications Conf. and MS&T’12, Warrendale, PA: Assoc. Iron Steel Technol., 2013, pp. 453–456.
Zaporozhets, V.V. and Varyukhno, V.V., Relationship between friction force and properties of secondary structures, Trenie Iznos, 1983, vol. 4, no. 1, pp. 59–67.
Heilmann, I., Clark, W.A.T., and Rigney, D.A., Orientation determination of subsurface cells generated by sliding, Acta Metall., 1983, vol. 31, no. 8, pp. 1293–1305.
Ivshchenko, L.I., Tsyganov, V.V., and Zakiev, I.M., Features of the wear of tribolojoints under three-dimensional loading, J. Frict. Wear, 2011, vol. 32, no. 1, pp. 8–16.
Ivschenko, L.Y., Tsyganov, V.V., and Adjerid, S., Influence des conditions de chargement dynamique sur la résistance à l’usure des tribocontacts, Mater. Tech. (Les Ulis, Fr.), 2013, vol. 101, no. 4, art. ID 403.
Tsyganov, V., Naumik, V., Ivschenko, L., et al., Steel-copper nano composited materials, Proc. Materials Science and Technology Conf. and Exhibition 2019 (MS&T’19), Red Hook, NY: Curran Assoc., 2020, pp. 439–443.
Zaporozhets, V.V., Ivshchenko, L.I., and Tsyganov, V.V., Influence of the polymer component of the coolant on the surface layer of hard-contacting parts, Tekhnol. Sist., 2015, no. 1, pp. 57–63.
Tsyganov, V.V. and Ivschenko, L.I., The methodological principles of the engineering of tribocoupling details surface under multicomponent loading, Materials Science and Technology 2018. 2019, pp. 578–584.
Kindrachuk, M.V., Vol’chenko, A.I., Vol’chenko, D.A., et al., Electrodynamics of the thermal contact friction interaction in metal-polymer friction couples, Mater. Sci., 2018, vol. 54, no. 1, pp. 69–77.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated by S. Kuznetsov
About this article
Cite this article
Tsyganov, V.V., Mokhnach, R.E. & Sheiko, S.P. Increasing Wear Resistance of Steel by Optimizing Structural State of Surface Layer. Steel Transl. 51, 144–147 (2021). https://doi.org/10.3103/S096709122102011X
Received:
Published:
Issue Date:
DOI: https://doi.org/10.3103/S096709122102011X