Abstract
To determine the maximum permissible load-speed modes of friction of ultra-high-molecular-weight polyethylene (UHMWPE) and composites based on it, accelerated wear tests were carried out, consisting in the intensification of friction modes (velocities and loads). The allowable load-speed modes of operation of UHMWPE and a composite based on it with 5 wt % carbon fiber of the Belum brand were experimentally established. For UHMWPE, they are 120–200 N m/s; for the composite, 160–250 N m/s.
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REFERENCES
Yu. K. Mashkov, Tribophysics of Metals and Polymers (Omsk Gos. Tekh. Univ., Omsk, 2013) [in Russian].
W. Brostow, V. Kovačević, D. Vrsaljko, and J. Whitworth, “Tribology of polymers and polymer-based composites,” J. Mater. Ed. 32, 273–290 (2010).
Yu. K. Mashkov, Z. N. Ovchar, V. I. Surikov, and L. F. Kalistratova, Composite Materials Based on Polytetrafluoroethylene. Structural Modification: Monograph (Mashinostroenie, Moscow, 2005) [in Russian].
I. N. Andreeva, E. V. Veselovskaya, E. I. Nalivaiko, et al., Ultra High Molecular Weight High Density Polyethylene (Khimiya, Leningrad, 1982) [in Russian].
S. A. Bochkareva, S. V. Panin, B. A. Lyukshin, et al., “Simulation of frictional wear with account of temperature for polymer composites,” Phys. Mesomech. 23, 147–159 (2020).
M. A. Samad and S. K. Sinha, “Mechanical, thermal and tribological characterization of a UHMWPE film reinforced with carbon nanotubes coated on steel,” Tribol. Int. 44, 1932–1941 (2011).
O. V. Gogoleva and P.N. Petrova, “Study of the influence of different production technologies on the properties of composites based on UHMWPE,” Vopr. Materialoved. 91, 121–126 (2017).
P. N. Bogdanovich and D. V. Tkachuk, “Thermal and thermomechanical phenomena in sliding contact,” Trenie Iznos 20, 214–229 (2009).
O. V. Gogoleva, P. N. Petrova, and E. S. Kolesova, “Study of tribotechnical properties of composites based on UHMWPE, including friction in various lubricating oils,” Zh. Yuzh. Fed. Univ. Tekh. Tekhnol. 13, 517–524 (2020).
W. Shi, H. Dong, and T. Bell, “Tribological behaviour and microscopic wear mechanisms of UHMWPE sliding against thermal oxidation-treated Ti6Al4V,” Mater. Sci. Eng. 291, 27–36 (2000).
Funding
The work was carried out within the framework of state order of the Ministry of Science and Higher Education of the Russian Federation no. 122011100162-9 using the scientific equipment of the Center for Collective Use of the Institute of Oil and Gas Problems, Russian Academy of Sciences, grant no. 13.CKP.21.0016.
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Translated by M. Drozdova
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Gogoleva, O.V., Petrova, P.N. & Kolesova, E.S. Determination of the Maximum Permissible Friction Modes of Ultra-High-Molecular-Weight Polyethylene and Polymer-Composite Materials Based on It Modified on Carbon Fibers. Polym. Sci. Ser. D 16, 672–677 (2023). https://doi.org/10.1134/S1995421223030103
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DOI: https://doi.org/10.1134/S1995421223030103