Abstract
The paper considers the process of friction of carbon-carbon-fiber composite materials (C/C-fiber composite) and investigates the formation of a film of wear products (third body) on the friction surface. The friction and wear tests of the composites are carried out in the temperature and pressure range typical for the operation of aircraft-braking systems and other highly loaded friction units. The friction surface of the material and the third body are investigated by scanning electron microscopy, scanning probe microscopy, and Raman spectroscopy. The influence of the presence of a third-body film and its thickness on the coefficient of friction and the intensity of material wear are estimated.
Similar content being viewed by others
REFERENCES
M. M. Khruschov, Wear 28, 69 (1974).
K. H. Zum-Gahr, in Proc. Int. Conf. on Wear of Materials, American Society of Material Engineering (Vancouver, 1985), p. 793.
Y. Lee. Gun, C. K. H. Dharan, and R. O. Ritchie, Wear 252, 322 (2002).
B. Yen and C. K. H. Dharan, Wear 195, 123 (1996).
I. G. Goryacheva and E. V. Torskaya, Trenie Iznos 13, 185 (1992).
A. Shpenev, Advanced Materials, PHENMA 2017, Springer Proceedings in Physics (2018), Vol. 207, p. 459.
I. G. Goryacheva and Y. Y. Makhovskaya, in Multiscale Solid Mechanics: Strength, Durability, and Dynamics, Ed. by. H. Altenbach, V. A. Eremeyev, and L. A. Igumnov, Advanced Structured Materials, Vol. 141 (Springer, Cham, 2021), p. 163. https://doi.org/10.1007/978-3-030-54928-2_13
A. G. Shpenev, Mater. Phys. Mech. 44, 229 (2020).
Y. Zhang, G. Mollon, and S. Descartes, Tribol. Int. 145, 106188 (2020).
M. Renouf, H.-P. Cao, and V.-H. Nhu, Tribol. Int. 44, 417 (2011).
I. Argatov and Y. Chai, Wear 466–467, 203562 (2021).
V. Donea, D. Kesavana, M. Krishna, T. Chaisec, and D. Neliasc, Tribol. Int. 109, 1 (2017).
D. Majcherczak, P. Dufrenoy, Y. Berthier, and M. Nait-Abdelaziz, Wear 261, 467 (2006).
W. Österlea, I. Dörfel, C. Prietzel, H. Roocha, A.-L. Cristol-Bulthé, G. Degallaix, and Y. Desplanques, Wear 267, 781 (2009).
N. Fillot, I. Iordanoff, and Y. Berthier, Wear 262, 949 (2007).
P. O. Bukovskii, A. V. Morozov, and A. N. Kirichenko, Trenie Iznos 41, 448 (2020).
O. O. Shcherbakova, A. G. Shpenev, D. L. Zagorskiy, and T. I. Muravyeva, IOP Conf. Ser.: Mater. Sci. Eng. 699, 012032 (2019).
A. G. Shpenev, T. I. Muravyeva, I. V. Shkalei, V. V. Kulakov, and A. K. Golubkov, Proc. Struct. Integr. 28, 1702 (2020).
L. Bokobza, J.-L. Bruneel, and M. Couzi, Vibr. Spectrosc. 74, 57 (2014).
A. G. Shpenev, J. Frict. Wear 42, 30 (2021).
Funding
The study was financially supported by the Russian Foundation for Basic Research (project no. 21-58-52 006МНТ_а).
We express our gratitude to PJSC AK Rubin for providing the samples of materials.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
We declare that we have no conflict of interest.
Rights and permissions
About this article
Cite this article
Shpenev, A.G., Muravyeva, T.I., Shkalei, I.V. et al. Influence of the Surface Film (Third Body) on the Friction and Wear Process of Carbon-Fiber Composites. J. Surf. Investig. 16, 397–401 (2022). https://doi.org/10.1134/S1027451022030326
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1027451022030326