The regularity of the change in the coefficient of friction of the coupling of "shaft-sleeve" parts using polymeric materials

Authors

  • V.V. Aulin Central Ukrainian National Technical University
  • S.V. Lysenko Central Ukrainian National Technical University
  • A.V. Hrynkiv Central Ukrainian National Technical University
  • A.A. Tykhyi Central Ukrainian National Technical University
  • O.V. Kuzyk Central Ukrainian National Technical University
  • O.M. Livitskyi Central Ukrainian National Technical University

DOI:

https://doi.org/10.31891/2079-1372-2023-107-1-81-91

Keywords:

polymer-metal material, coefficient of friction, load, sliding speed, tribocoupling of samples and parts, non-equilibrium state, elasticity, deformation, wear coefficient

Abstract

For the conjugation of samples and parts of the "shaft-sleeve" type, from the theoretical and experimental points of view, the laws of the change of the coefficient of friction for the combined polymer-metal material and coating were considered. Based on the law of energy conservation and transformation in the friction zone, expressions for estimating friction coefficients for polymer coatings and combined polymer-metal materials were obtained, taking into account the properties of thermal conductivity and elasticity and the geometric dimensions of the polymer and metal components. The consistency of the patterns of change in the friction coefficient has been clarified in tribocouplings of samples and parts from load and sliding speed in modes without lubrication and at extreme friction. To substantiate the effective operation of tribocoupling of parts made of combined polymer-metal materials, a criterion was introduced - the coefficient of wear, which is used to evaluate the tribological efficiency. It is shown that the obtained experimental results do not contradict the theoretical justification

References

Aulin V.V. (2015). Trybofizychni osnovy pidvyshchennia znosostiikosti detalei ta robochykh orhaniv silskohospodarskoi tekhniky [dys. ... d-ra tekhn. nauk: 05.02.04]. 360 s.

Bondarenko V.P. (1987). Tribotehnicheskie kompozityi s vyisokomodulnyimi napolnitelyami [K.: Nauk. dumka]. 232 s.

Kabat, O., Sytar, V., Derkach, O., Sukhyy, K. (2021). Polymeric composite materials of tribotechnical purpose with a high level of physical, mechanical and thermal properties [Chemistry and Chemical Technology, 15 (4)]. pp. 543-550.

Aulin, V., Lysenko, S., Hrynkiv, A., & Pashynskyi, M. (2022). Pokrashchennia trybolohichnykh kharakterystyk spriazhennia detalei "val-vtulka" polimernymy ta polimerno-kompozytsiinymy materialamy. [Problems of Tribology, 27(3/105)]. pp. 96-107.

Aulin V.V., Derkach O.D., Hrynkiv A.V., Makarenko D.O. (2021). Vyznachennia robochoi temperatury kompozytnykh elementiv rukhomykh ziednan v zoni tertia [Naukovyi visnyk Tavriiskoho derzhavnoho ahrotekhnolohichnoho universytetu: elektronne naukove fakhove vydannia. Vyp. 11, tom 1, stattia21].

Lan P X, Meyer J L, Economy J, Polycarpou A A. (2016). Unlubricated tribological performance of Aromatic Thermosetting Polyester (ATSP) coatings under different temperature conditions. [Tribol Lett 61(1)] p. 10.

Anni, I.A., Kaminskyj, M.S., Uddin, K.Z., Bacha, T.W., Singh, N.K., Stanzione, J.F., Haas, F.M., Koohbor, B. (2023) [Thermoplastic coating on fiber reinforced polymer composites by cold spray additive manufacturing. Materials Today Communications, 35, № 105650].

Lazarenko O.A., Vovchenko L.L., Ovsiienko I.V., Matsui L.Iu. (2018). Polimerni kompozyty nanovuhlets-metal: struktura i elektrychni vlastyvosti. [Kyiv-Vinnytsia: TOV «TVORY]. 200 s.

Majid Hosseini, Abdel Salam Hamdy Makhlouf. (2016). Industrial Applications for Intelligent Polymers and Coatings. [Springer International Publishing]. 710 s.

de With, G. (2018). Polymer coatings: a guide to chemistry, characterization, and selected applications. [Weinheim : Wiley-VCH Verlag]. 600 p.

Sirenko H.O., Sviderskyi V.P. (2016). Teplofizychni vlastyvosti polimernykh kompozytiv: monohrafiia [Za red. H.O. Sirenka. – Ivano-Frankivsk: Vyd. Suprun V.P.]. 292s.

Aulin V.V., Hrynkiv A.V., Smal V.V., Lysenko S.V. et al. (2021). Livitskyi Basic approaches and requirements for the design of tribological polymer composite materials with high-modulus fillers [Problems of Tribology, V. 26, No 4/102-2021]. pp. 51-60.

Derkach, O.D., Kabat O. S., Bezus R. M., Kovalenko V. L., Kotok V. A. (2018). Investigation of the influence of fullerene-containing oils on tribotechnical characteristicsof metal conjunction [ARPN Journal of Engineering and Applied Sciences. VOL. 13 (14)]. pp. 4331-4336.

Kabat O., Sytar V., Derkach O., Sukhyy K. (2021). Polymeric composite materials of tribotechnical purpose with a high level of physical, mechanical and thermal properties [Chemistry & chemical technology. Vol. 15, Nо. 4]. pp. 543-550.

Berladir Kh. V., Budnyk O.A., Diadiura K.O. ta in. (2017). Naukovi osnovy rozrobky polimernykh kompozytsiinykh materialiv trybotekhnichnoho pryznachennia na osnovi politetraftoretylenu: monohrafiia. [Sumy : Sumskyi derzhavnyi universytet]. 176 s.

Yuan H, Yang S R, Liu X H, Wang Z F, Ma L M, Hou K M, Yang Z G, Wang J Q. (2017). Polyimide-based lubricating coatings synergistically enhanced by MoS2@HCNF hybrid. [Composites Part A 102]. pp. 9-17.

Pan B L, Zhao J, Zhang Y Q, Zhang Y Z. (2012) Wear performance and mechanisms of polyphenylene sulfide/ polytetrafluoroethylene wax composite coatings reinforced by graphene. [J Macromol Sci Part B 51(6)]. pp. 1218-1227.

Buketov A.V. ta in. (2018).Vidnovlennia zasobiv transportu fulerenovmisnymy epoksykompozytamy : monohrafiia [Kherson : KhDMA]. 161 s.

Naffakh M., Diez-Pascual A.M., Marco C., Ellis G.J., Gomez-Fatou M.A. (2013). Opportunities and challenges in the use of inorganic fullerene-like nanoparticles to produce advanced polymer nanocomposites [Prog.Polym.Sci. V.38]. P. 1163–1231.

Kolosov O.Ye., Sivetskyi V.I., Sokolskyi O.L., Ivitskyi I.I., Kurylenko V.M. (2017). Materialy ta tekhnolohii dlia oderzhannia funktsionalnykh polimernykh kompozytsiinykh materialiv [Naukovi notatky: mizhvuzivskyi zbirnyk (za haluziamy znan «Tekhnichni nauky»). Vyp. 58]. S. 184-192

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Published

2023-03-17

How to Cite

Aulin, V., Lysenko, S., Hrynkiv, A., Tykhyi, A., Kuzyk, O., & Livitskyi, O. (2023). The regularity of the change in the coefficient of friction of the coupling of "shaft-sleeve" parts using polymeric materials. Problems of Tribology, 28(1/107), 81–91. https://doi.org/10.31891/2079-1372-2023-107-1-81-91

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