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Fretting-Wear Mechanism of Textured Surfaces

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The wear mechanism of textured dimpled in conditions of lubricated fretting-wear is established, which, in contrast to others, takes into account possibility of removing deterioration products out of tribo-contact areas into dimples, preventing their action as abrasive material. Selection of optimal structural parameters of selectively dimpled areas allows to reduce duration of tribological couple running-in time. Depending on texture type, friction coefficient was reduced from 0.27 (for untreated furface) to 0.18, and wear loss – from 7.8 ×10–3g to 3.3 ×10–3g.
Twórcy
  • Department of Fundamentals of Technology, Lublin University of Technology, Poland
  • Engineering Department, National Aviation University, Kyiv, Ukraine
  • Engineering Department, National Aviation University, Kyiv, Ukraine
  • Engineering Department, National Aviation University, Kyiv, Ukraine
  • Engineering Department, National Aviation University, Kyiv, Ukraine
  • Engineering Department, National Aviation University, Kyiv, Ukraine
Bibliografia
  • 1. Stachowiak G., Podsiadlo P. 3-D Characterization, Optimization, and Classification of Textured Surfaces. Tribology Letters, 2008, 32(1), 13–21.
  • 2. Pashechko M., Dziedzic K., Barszcz M. Study of the structure and properties of wear-resistant eutectic Fe-Mn-C-B-Si-Ni-Cr coatings. Powder Metallurgy and Metal Ceramics, 2013, 52(7–8), 469–476.
  • 3. Pashechko M., Wear resistance of eutectic coatings of the Fe–Mn–C–B system alloyed with Si, Ni and Cr. Materials Science, 2011, 46(5), 695–701.
  • 4. O. Radionenko O, Kindrachuk M, Tisov O, Kryzhanovskyi A. Features of transition modes of friction surfaces with partially regular microrelief. Aviation, 2018, 22(3), 86–92.
  • 5. Dykha A, Dykha M. Increase wearproofness of steel cylindrical details by discrete electromechanical strengthening. IJET, 2018, 7, 6156–6161.
  • 6. Dykha A., Makovkin O., Dykha M. Influence of discrete electromechanical hardening on the wear resistance of steels. Advances in design, simulation and manufacturing II. DSMIE, Springer, 2019.
  • 7. Li X., Li Y., Tong Z., Ma Q, Ni Y., Dong G. Enhanced lubrication effect of gallium-based liquid metal with laser textured surface. Tribology International, 2019, 129, 407–415.
  • 8. F. Meng, H. Yu, C. Gui, L. Chen.: Experimental study of compound texture effect on acoustic performance for lubricated textured surfaces. Tribology International, 2019, Vol. 133, 47–54
  • 9. Kindrachuk M.V., Volchenko O.I., Volchenko D.O., Volchenko N.O., Polyakov P.A., Kornienko A.O., Yurchuk A.O. Polymeric materials modified by semiconductor substances in friction units of braking devices. Journal of nano- and electronic physics, 2019, 11(3), 03014.
  • 10. Chen L., Liu Z., Shen Q. Enhancing tribological performance by anodizing micro-textured surfaces with nano-MoS2 coatings prepared on aluminum-silicon alloys. Tribology International, 122, 84–95.
  • 11. Maharana H. S., Kumar R, Narayana Murty S. V. S., Ramkumar J., Mondal K. Surface micro-texturing of dual phase steel and copper by combining laser machining and electrochemical dissolution. Journal of materials processing technology, 2019, 273, 116260.
  • 12. Lian Y., Deng J., Yao B., Zhuo Y., Lei S. Influence of different cemented carbides on fabricating periodic micro-nano textures by femtosecond laser processing. Surface and Coatings Technology, 2017, 317, 166–171.
  • 13. Yamaguchi K., Takada Y., Tsukuda Y., Ota M., Egashira K., Morita T. Friction characteristics of textured surface created by electrical discharge machining under lubrication. Proc. of 18th CIRP Conference on Electro Physical and Chemical Machining, Tokyo, Japan, 2016, 42, 662–667.
  • 14. Pratap T., Patra K. Fabrication of micro-textured surfaces using ball-end micromilling for wettability en-hancement of Ti-6Al-4V. Journal of materials processing technology, 2018, 262, 168–181.
  • 15. Marchuk V., Kindrachuk M., Kryzhanovskyi A. System analysis of the properties of discrete and oriented structure surfaces. Aviation, 2014, 18(4), 161–165.
  • 16. Pashechko M., Kindrachuk M., Radionenko O. The mechanism of friction between surfaces with regular micro grooves under boundary lubrication. Advances in science and technology research journal, 2016, 10(32), 82–85.
  • 17. Gachot C., Rosenkranz A., Hsu S. M., Costa H. L. A critical assessment of surface texturing for friction and wear improvement. Wear, 2017, 372–373, 21–41.
  • 18. Kindrachuk M., Radionenko O., Kryzhanovskyi A., Marchuk V. The friction mechanism between surfaces with regular micro grooves under boundary lubrication. Aviation, 2014, 18(2), 64–71.
  • 19. Golego N.L., Aliabiev F.Ja., Shevelia V.V.: Fretting-corrosion of metals. Technika, 1974.
  • 20. Kindrachuk V. M., Galanov B.A. An efficient approach for numerical treatment of some inequalities in solid mechanics on examples of Kuhn– Tucker and Signorini–Fichera conditions. Journal of the mechanics and physics of solids, 2014, 63, 432–450.
  • 21. Kindrachuk V.M., Galanov B.A., Kartuzov V.V., Dub S.N. Refined model of elastic nanoindentation of a half-space by the blunted Berkovich indenter accounting for tangential displacements on the contact surface. Journal of materials science, 2009, 44(10), 2599–2609
  • 22. Vázquez, C. Navarro, J. Domínguez. Analysis of the effect of a textured surface on fretting fatigue. Wear, 2013, 305, 23–35
  • 23. Patent of Ukraine, F01L 1/20, F01L 1/46. Device for forming indentation relief on the friction surface, which retains lubricants. Marchuk D.Ye., Shul’ga I.F., Pliusnin O.Ye., National Academy of Defence of Ukraine, No. 13762; Declared. 24.10.2005; Published. 17.04.2006. Bulletin No. 4.
  • 24. Joshi G. S., Putignano C., Gaudiusoa C., Stark T., Kiedrowski T., Ancona A., Carbone G. Effects of the micro surface texturing in lubricated non-conformal point contacts. Tribology International, 2018, 127, 296–301
  • 25. Kindrachuk M., Shevchenko A., Kryzhanovskyi A. Improvement of the quality of TiC-Co system plasma coating by laser treatment. Aviation, 2016, 20(4), 155–159.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8a93482e-6e34-46a8-ae12-fb425d5546eb
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