МЕТОДИ СТРУКТУРНОЇ ІНЖЕНЕРІЇ ПОВЕРХНІ ПРИ ВИРІШЕННІ ЗАВДАНЬ БАГАТОФАКТОРНОГО ПІДВИЩЕННЯ РІВНЯ ЕКСПЛУАТАЦІЙНИХ ХАРАКТЕРИСТИК МАТЕРІАЛІВ
DOI:
https://doi.org/10.30977/BUL.2219-5548.2023.103.1.22Ключові слова:
рентгеноструктурний аналіз, товщина покриття, твердість, вакуумно-дугове нанесення покриттівАнотація
Робота присвячена огляду декількох різних методів структурної інженерії поверхні (ТФЗ, ДТФЗ, ТФЗв, МДО, PVD).Були проведені експериментальні дослідження чорних та кольорових металів. Розглянуто зміну та отримання нових властивостей в поверхневих шарах виробів.
Посилання
Radionenko O., Kindrachuk M., Tisov O., Kryzhanovskyi A. Features of transition modes of friction surfaces with partially regular microrelief. Aviation. – 2018. – Vol. 22. – Iss. 3. – P. 86–92.
Panarin V.Y., Svavil'nyy M.Y., Khominych A.I., Kindrachuk M.V., Kornienko A.O. Creation of a diffusion barrier at the interphase surface of composite coatings reinforced with carbon nanotubes. Journal of nano- and electronic physics. – 2017. – Vol. 9. – Iss. 6.– Р. 06023.
Volkov O. O. Rol vykhidnoho stanu ta kontsentratsii vuhletsiu pry termofryktsiinomu zmitsnenni (TFZ) stalei. Visnyk Natsionalnoho tekhnichnoho universytetu «KhPI». Seriia: Innovatsiini tekhnolohii ta obladnannia obrobky materialiv u mashynobudu-vanni ta metalurhii = Bulletin of the National Technical University "KhPI". Series: Innovative technologies and equipment handling materials in mechanical engineering and metallurgy: zb. nauk. pr. / Nats. tekhn. un-t «Kharkiv. politekhn. in-t». – Kharkiv : NTU «KhPI». – 2020. – № 2 (1356). – S. 3–6.
Volkov O. Kraevska Z., Vasilchenko A., Hannichenko T. Additional strengthening of “screper” jewelry tool using friction. Solid state phenomena. – 2022. – Vol. 334. – P. 100–106.
Levterov A., Nechitaylo J., Plugina T., Volkov O. Application of thermo-frictional and chemical-thermal methods treatments for surface strengthening of materials. Materials science forum. – 2021. – Vol. 1038. – Р. 93–99.
Volkov O., Knyazev S., Vasilchenko A., Doronin E. Alternative strengthening of jewelry tools using chemical-thermal and local surface treatments. Materials science forum. – 2021. – Vol. 1038. – Р. 68–76.
Volkov O. O. Pіdvishchennya ekspluatacіjnoї stіjkostі detalej ta іnstrumentu metodom termofrikcіjnogo zmіcnennya [Improving the operational durability of parts and tools by the method of thermofriction hardening]: avtoref. dis. … kand. tekhn. nauk : 05.02.01 - Materіaloznavstvo ; nauk. ker. M. A. Pogrіbnij ; Harkіv. nac. tekhn. un-t s.-g. іm. P. Vasilenka.– Harkіv, 2020, 25 s.
Glushchenko M.A., Belozyorov V.V., Sobol O.V., Subbotina V.V., Zelenskaya G.I., Zubkov A.I. Effect of tantalum on the texture of copper vacuum condensates. Journal of nano- and electronic physics. – 2017. – Vol. 9. – Iss. 2.– P. 02015.
Wang J., Huang S., Huang H., He M., Wangyang, P. Gu, L. Effect of micro-groove on microstructure and performance of MAO ceramic coating fabricated on the surface of aluminum alloy. Journal of alloys and compounds. – 2019. Vol. 777. – Р. 94–101.
Galvao I., Leal R.M. Loureiro A. Influence of tool shoulder geometry on properties of friction stir welds thin copper sheets. Journal of materials processing technology. – 2013. – Vol. 213. – Iss. 2.– P. 129–135.
Volkov О.А. Study of heat deformation influence in surface strain hardening of steel by thermofriction processing. Eastern-european journal of enterprise technologies. – 2016. – Vol. 2. – № 5 (80). – Р. 38–44.
Belozerov V., Sobol O., Mahatilova A., Subbotina V., Tabaza T.A., Al-Qawabeha U.F., Al-Qawabah S.M. The influence of the conditions of microplasma processing (microarc oxidation in anode-cathode regime) of aluminum alloys on their phase composition. Eastern-european journal of enterprise technologies. – 2017. – Vol. 5.– № 12(89). – P. 52–57.
Subbotina V., Al-Qawabeha U.F., Belozerov V., Sobol’ O.V., Subbotin A., Tabaz T.A., Al-Qawabah S.M. Determination of influence of electrolyte composition and impurities on the content of α-Al2O3 phase in mao-coatings on aluminum. Eastern-european journal of enterprise technologies. – 2019. – Vol. 6. – № (12–102). – P. 6–13.
Nashrah N., Kamil M.P., Yoon D.K., Kim Y.G., Ko Y.G. Formation mechanism of oxide layer on AZ31 Mg alloy subjected to micro-arc oxidation considering surface roughness. Applied Surface Science. – 2019. – Vol. 497. – Р. 143772.
Belozerov V., Mahatilova A., Sobol' O., Subbotina V., Subbotin A. Investigation of the influence of technological conditions of microarc oxidation of magnesium alloys on their structural state and mechanical properties. Eastern european journal of enterprise technologies. – 2017. – Vol. 2. – Iss. 5 (86). – P. 39–43.
Subbotina V.V., Sobol' O.V., Belozerov V.V., Makhatilova A.I., Shnayder V.V. Use of the method of micro-arc plasma oxidation to increase the antifriction properties of the titanium alloy surface. Journal of nano- and electronic physics. – 2019. – Vol. 11. – Iss. 3. – Р. 03025.
Dehghanghadikolaei A., Ibrahim H., Amerinatanzi A., Hashemi M., Moghaddam N.S., Elahinia M. Improving corrosion resistance of additively manufactured nickel–titanium biomedical devices by micro-arc oxidation process. Journal of Materials Science. – 2019. – Vol. 54.– Iss. 9. – Р. 7333–7355.
Lai P., Zhang H., Zhang L., Zeng Q., Lu J., Guo X. Effect of micro-arc oxidation on fretting wear behavior of zirconium alloy exposed to high temperature water. Wear. – 2019. – Vol. 424–425. – Р. 53–61.
Martin J., Nominé A.V., Stef J., Nominé A., Zou J.X, Henrion G., Grosdidier T. The influence of metallurgical state of substrate on the efficiency of plasma electrolytic oxidation (PEO) process on magnesium alloy. Materials and Design.– 2019. – Vol. 178. – P. 107859.
Trembach B., Grin A., Subbotinа V., Vynar V., Knyazev S., Zakiev V., Trembach I., Kabatskyi O. Effect of exothermic addition (СuO-Al) on the structure, mechanical properties and abrasive wear resistance of the deposited metal during self-shielded flux-cored arc welding. Tribology in Industry. – 2021. – 43(3). – P. 452–464.
Postelnyk H.O., Sobol’ O.V., Stolbovoy V.A., Serdiuk I.V., Chocholaty O. Structure and corrosion resistance of vacuum-arc multi-period CrN/Cu, ZrN/Cu, and NbN/Cu coatings. Problems of atomic science and technology. – 2020. – № 2 (126). – P. 139–144.
Meng C., Jiang J., Ma J., Zhang T., Liu W., Xie P., Wang H., Ma X., He X. Improving the high-temperature oxidation resistance of CrN coating by gradient deposition considering internal stress effects. Nuclear materials and energy. – 2023.
