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Erschienen in:

24.11.2021

Wear Simulation of a Spherical Hinge Joint with a Thin Composite Coating

verfasst von: M. I. Chebakov, S. A. Danilchenko

Erschienen in: Mechanics of Composite Materials | Ausgabe 5/2021

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Abstract

A spatial quasi-static contact problem for a spherical hinge joint is considered. On one of the sliding surfaces, a thin polymer composite cover is coated. The polymer matrix is based on a C-2 phenylone and fillers in the form of fine F4MB fluoroplastic powders, tungsten-molybdenum blue, and a C-52 cylinder oil. To solve the problem, the finite-element method and the ANSYS software package were used. The Archard model was employed for describing the wear process. The stress-strain state of the joint was investigated, and the linear wear of the coating at the initial stage of interaction of faces was determined under the same loading conditions and coating thickness. It was found that, at the initial moment of time, the contact pressure and the equivalent stress in the interaction zone increased, which was associated with the “running-in” stage, when the contact was formed when the die unwinded. With reaching a stable rotation mode and a gradual increase in the area of contact patch, due to wear, these values decreased. The amount of wear at the initial stage changed almost linearly and directly depended on the wear factor. The volumetric wear was obtained for different coatings, which allowed us to calculate the rate and intensity of wear.

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Literatur
1.
Zurück zum Zitat D. L. Burris, B. Boesl, G. R. Bourne, and W. G. Sawyer, “Polymeric nanocomposites for tribological applications,” Macromol. Mater. Eng., 292, Iss. 4, 387-402 (2007).CrossRef D. L. Burris, B. Boesl, G. R. Bourne, and W. G. Sawyer, “Polymeric nanocomposites for tribological applications,” Macromol. Mater. Eng., 292, Iss. 4, 387-402 (2007).CrossRef
2.
Zurück zum Zitat K. Friedrich, L. Chang, and F. Haupert, “Current and future applications of polymer composites in the field of tribology,” L. Nicolais, M. Meo, E. Milella (Eds.), Composite Materials. - London: Springer, 129-167 (2011). K. Friedrich, L. Chang, and F. Haupert, “Current and future applications of polymer composites in the field of tribology,” L. Nicolais, M. Meo, E. Milella (Eds.), Composite Materials. - London: Springer, 129-167 (2011).
3.
Zurück zum Zitat Yu. K. Mashkov, Polymer Composite Materials in Tribotechnics [in Russian], Yu. K. Mashkov, Z. N. Ovchar, M. Yu. Baybaratskaya, M., Nedra (2004). Yu. K. Mashkov, Polymer Composite Materials in Tribotechnics [in Russian], Yu. K. Mashkov, Z. N. Ovchar, M. Yu. Baybaratskaya, M., Nedra (2004).
4.
Zurück zum Zitat M. P. Danilaev, E. A. Bogoslov, V. A. Kuklin, M. A. Klabukov, O. L. Khamidullin, Yu. E. Pol’sky, and S. A. Mikhailov, “Structure and mechanical properties of a dispersedly filled transparent polycarbonate,” Mech. Compos. Mater., 55, No. 1, 53-62 (2019).CrossRef M. P. Danilaev, E. A. Bogoslov, V. A. Kuklin, M. A. Klabukov, O. L. Khamidullin, Yu. E. Pol’sky, and S. A. Mikhailov, “Structure and mechanical properties of a dispersedly filled transparent polycarbonate,” Mech. Compos. Mater., 55, No. 1, 53-62 (2019).CrossRef
5.
Zurück zum Zitat K. Friedrich, Z. Zhang, and A. K. Schlarb, “Effects of various fillers on the sliding wear of polymer composites,” Compos. Sci. Technol., 65, 2329-2343 (2005).CrossRef K. Friedrich, Z. Zhang, and A. K. Schlarb, “Effects of various fillers on the sliding wear of polymer composites,” Compos. Sci. Technol., 65, 2329-2343 (2005).CrossRef
6.
Zurück zum Zitat F. H. Su, Z. Z. Zhang, and W. M. Liu, “Mechanical and tribological properties of carbon fabric composites filled with several nano-particulates,” Wear, 260, 861-868 (2006).CrossRef F. H. Su, Z. Z. Zhang, and W. M. Liu, “Mechanical and tribological properties of carbon fabric composites filled with several nano-particulates,” Wear, 260, 861-868 (2006).CrossRef
7.
Zurück zum Zitat P. G. Ivanochkin, S. A. Danilchenko, and E. S. Novikov, “Antifriction composites based on phenylone C2 for work under conditions of dry friction,” Procedia Eng., 150, 520-526 (2016).CrossRef P. G. Ivanochkin, S. A. Danilchenko, and E. S. Novikov, “Antifriction composites based on phenylone C2 for work under conditions of dry friction,” Procedia Eng., 150, 520-526 (2016).CrossRef
8.
Zurück zum Zitat N. A. Semenov and E. S. Kelbysheva, “Creating a new elastomeric material with a polyimide filler and studying its viscoelastic properties under applied external electric fields and dynamic loads,” Mech. Compos. Mater., 56, No. 6, 1189-1198 (2020). N. A. Semenov and E. S. Kelbysheva, “Creating a new elastomeric material with a polyimide filler and studying its viscoelastic properties under applied external electric fields and dynamic loads,” Mech. Compos. Mater., 56, No. 6, 1189-1198 (2020).
9.
Zurück zum Zitat S. A. Yildizel, O. Timur, and A. U. Ozturk, “Abrasion resistance and mechanical properties of waste-glass-fiber-reinforced roller-compacted concrete,” Mech. Compos. Mater., 54, No. 2, 371-378 (2018).CrossRef S. A. Yildizel, O. Timur, and A. U. Ozturk, “Abrasion resistance and mechanical properties of waste-glass-fiber-reinforced roller-compacted concrete,” Mech. Compos. Mater., 54, No. 2, 371-378 (2018).CrossRef
10.
Zurück zum Zitat A. I. Burya, “Polyamide composites: properties and application,” A. I. Burya, E. V. Tkachenko, O. P. Chigvintseva,” Composite Materials: International. Scientific and Technical Conf., Dnepropetrovsk: DGAU, No. 1, 4-21 (2009). A. I. Burya, “Polyamide composites: properties and application,” A. I. Burya, E. V. Tkachenko, O. P. Chigvintseva,” Composite Materials: International. Scientific and Technical Conf., Dnepropetrovsk: DGAU, No. 1, 4-21 (2009).
11.
Zurück zum Zitat J. Khedkar, I. Negulescu, and E. I. Meletis, “Sliding wear behavior of PTFE composites,” Wear, 252, 361-369 (2002).CrossRef J. Khedkar, I. Negulescu, and E. I. Meletis, “Sliding wear behavior of PTFE composites,” Wear, 252, 361-369 (2002).CrossRef
12.
Zurück zum Zitat T. O. Larsen, T. L. Andersen, B. Throning, A. Horsewell, and M. E. Vigild, “Changes in the tribological behavior of an epoxy resin by incorporating CuO nanoparticles and PTFE microparticles,” Wear, 265, Iss. 1-2, 203-213 (2008).CrossRef T. O. Larsen, T. L. Andersen, B. Throning, A. Horsewell, and M. E. Vigild, “Changes in the tribological behavior of an epoxy resin by incorporating CuO nanoparticles and PTFE microparticles,” Wear, 265, Iss. 1-2, 203-213 (2008).CrossRef
13.
Zurück zum Zitat P. G. Ivanochkin, K. N. Dolgopolov, and S. A. Danilchenko, “Creation of oil-filled composites of tribotechnical purpose based on aromatic polyamide C-2 phenylone,” Solid State Phenomena, 284, 14-19 (2018).CrossRef P. G. Ivanochkin, K. N. Dolgopolov, and S. A. Danilchenko, “Creation of oil-filled composites of tribotechnical purpose based on aromatic polyamide C-2 phenylone,” Solid State Phenomena, 284, 14-19 (2018).CrossRef
14.
Zurück zum Zitat L. A. Nikiforov, T. E. Efimova, and T. A. Okhlopkova, “Oil filled polymer composites based on ultrahigh-molecularweight polyethylene,” IOP Conf. Ser. Earth and Environmental Sci., 320, 012060 (2019). L. A. Nikiforov, T. E. Efimova, and T. A. Okhlopkova, “Oil filled polymer composites based on ultrahigh-molecularweight polyethylene,” IOP Conf. Ser. Earth and Environmental Sci., 320, 012060 (2019).
15.
Zurück zum Zitat K. I. Karpenko, E. S. Novikov, S. A. Danilchenko, and V. V. Avilov, “The study of the tribological, thermal and physical properties of C-2 phenylone based composites containing nonstoichiometric molybdenum and tungsten oxides,” MATEC Web of Conf., 226, 03016 (2018).CrossRef K. I. Karpenko, E. S. Novikov, S. A. Danilchenko, and V. V. Avilov, “The study of the tribological, thermal and physical properties of C-2 phenylone based composites containing nonstoichiometric molybdenum and tungsten oxides,” MATEC Web of Conf., 226, 03016 (2018).CrossRef
16.
Zurück zum Zitat V. G. Rekach, A Guide to Solving Problems in the Theory of Elasticity [in Russian], M., Vyssh. Shkola (1966). V. G. Rekach, A Guide to Solving Problems in the Theory of Elasticity [in Russian], M., Vyssh. Shkola (1966).
17.
Zurück zum Zitat E. M. Kolosova and M. I. Chebakov, “The contact problem for a two-layer spherical base,” J. Appl. Math. Mech., 74, Iss. 6, 673-678 (2010).CrossRef E. M. Kolosova and M. I. Chebakov, “The contact problem for a two-layer spherical base,” J. Appl. Math. Mech., 74, Iss. 6, 673-678 (2010).CrossRef
18.
Zurück zum Zitat M. I. Chebakov, “To the calculation theory of a spherical self-lubricating bearing,” Izv. RAN, Mekh. Tverd. Tela, No. 5, 58-63 (1992). M. I. Chebakov, “To the calculation theory of a spherical self-lubricating bearing,” Izv. RAN, Mekh. Tverd. Tela, No. 5, 58-63 (1992).
19.
Zurück zum Zitat M. Stankovic, A. Marinkovic, A. Grbovic, Z. Miskovic, B. Rosic, and R. Mitrovic, “Determination of Archard’s wear coefficient and wear simulation of sliding bearings,” Industrial Lubrication and Tribology, 71, No. 1, 119-125 (2019).CrossRef M. Stankovic, A. Marinkovic, A. Grbovic, Z. Miskovic, B. Rosic, and R. Mitrovic, “Determination of Archard’s wear coefficient and wear simulation of sliding bearings,” Industrial Lubrication and Tribology, 71, No. 1, 119-125 (2019).CrossRef
20.
Zurück zum Zitat J. F. Archard, “Contact and rubbing of flat surfaces,” J. Appl. Phys., 24, No. 1, 12-28 (1958). J. F. Archard, “Contact and rubbing of flat surfaces,” J. Appl. Phys., 24, No. 1, 12-28 (1958).
21.
Zurück zum Zitat E. Madenci, and I. Guven, The Finite Element Method and Applications in Engineering Using ANSYS, N. Y., USA, Springer (2006). E. Madenci, and I. Guven, The Finite Element Method and Applications in Engineering Using ANSYS, N. Y., USA, Springer (2006).
Metadaten
Titel
Wear Simulation of a Spherical Hinge Joint with a Thin Composite Coating
verfasst von
M. I. Chebakov
S. A. Danilchenko
Publikationsdatum
24.11.2021
Verlag
Springer US
Erschienen in
Mechanics of Composite Materials / Ausgabe 5/2021
Print ISSN: 0191-5665
Elektronische ISSN: 1573-8922
DOI
https://doi.org/10.1007/s11029-021-09993-8

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