Open Access
Issue
Mechanics & Industry
Volume 22, 2021
Article Number 11
Number of page(s) 8
DOI https://doi.org/10.1051/meca/2021007
Published online 08 March 2021
  1. J. Aguirrebeitia, M. Abasolo, J. Vallejo, I. Coria, I. Heras, Methodology for the assessment of equivalent load for self-lubricating radial spherical plain bearings under combined load, Tribol. Int. 105 , 69–76 (2017) [Google Scholar]
  2. X.J. Shen, L. Cao, Y.G. Chen, R.Y. Li, Research status and prospect of spherical plain bearings with self-lubricating fabric liner, Bearing 3 , 57–61 (2009) [Google Scholar]
  3. X.G. Shen, Y.F. Liu, L. Cao, X.Y. Chen, Numerical simulation of sliding wear for self-lubricating spherical plain bearings, J. Mater. Res. Technol. 1 , 8–12 (2012) [Google Scholar]
  4. B.C. Kim, D.G. Lee, Endurance and performance of a composite spherical bearing, Compos. Struct. 87 , 71–79 (2008) [Google Scholar]
  5. M. Qiu, J.J. LU, Y.C. Li, G.S. Lv, Investigation on MoS2 and graphite coatings and their effects on the tribological properties of the radial spherical plain bearings, Chin. J. Mech. Eng. 29 , 844–852 (2016) [Google Scholar]
  6. M. Qiu, Z.P. Yang, J.J. Lu, Y.C. Li, D.W. Zhou, Influence of step load on tribological properties of self-lubricating radial spherical plain bearings with PTFE fabric liner, Tribol. Int. 113 , 344–353 (2017) [Google Scholar]
  7. M. Qiu, Z.G. Li, Y.C. Li, L. Chen, Y.W. Li, Effect of liner modification on the tribological properties of self-lubricating spherical plain bearings under tilting oscillation, Tribology 34 , 59–64 (2014) [Google Scholar]
  8. Z.Q. Hu, W. Li, Y.L. Yang, B.L. Fan, H.L. Zhou, Thermal error compensation of the wear-depth real-time detecting of self-lubricating spherical plain bearings, Chin. J. Mech. Eng. 31 , 28–40 (2018) [Google Scholar]
  9. S. Pal, R. Sarkar, V. Jayaram, Characterization of Thermal Stability and High-Temperature Tribological Behavior of Electroless Ni-B Coating, Metall. Mater. Trans. A 49 , 3217–3236 (2018) [Google Scholar]
  10. H.J. Zhang, Z.Z. Zhang, F. Guo, K. Wang, W. Jiang, Enhanced wear properties of hybrid PTFE/cotton fabric composites filled with functionalized multi-walled carbon nanotubes, Mater. Chem. Phys. 116 , 183–190 (2009) [Google Scholar]
  11. F.H. Su, Z.Z. Zhan, W.M. Liu, Tribological behavior of hybrid glass/PTFE fabric composites with phenolic resin binder and nano-TiO2 filler, Wear. 264 , 562–570 (2008) [Google Scholar]
  12. B.A. Krick, J.J. Ewin, G.S. Blackman, C.P. Junk, W.G. Sawyer, Environmental dependence of ultra-low wear behavior of polytetrafluoroethylene (PTFE) and alumina composites suggests tribochemical mechanisms, Tribol. Int. 51 , 42–46 (2012) [Google Scholar]
  13. S. Bahadur, D. Tabor, The wear of filled polytetrafluoroethylene, Wear 98 , 1–13 (1984) [Google Scholar]
  14. A. William, H. Donald, Adhesion and friction of PTFE in contact with metals as studied by Auger spectroscopy, field ion and scanning electron microscopy, Wear 26 , 75–93 (1973) [Google Scholar]
  15. A.A. Pitenis, J.J. Ewin, K.L. Harris, In vacuo tribological behavior of polytetrafluoroethylene (PTFE) and alumina nanocomposites: the importance of water for ultralow wear, Tribol. Lett. 53 , 189–197 (2014) [Google Scholar]
  16. L. Ding, D. Axinte, P. Butler-Smith, A.A. Hassan, Study on the characterisation of the PTFE transfer film and the dimensional designing of surface texturing in a dry-lubricated bearing system, Wear 448–449, 203238 (2020) [Google Scholar]
  17. Y.X. Wang, H.L. Wang, F.Y. Yan, The study of correspondence on tribology of PTFE composites and its transfer films, China Surf. Eng. 22 , 49–53 (2009) [Google Scholar]
  18. Y.L. Yang, X.M. Fang, F. Wu, Research on wear performance of self-lubricating spherical plain bearings, Bearing 12 , 38–41 (2015) [Google Scholar]
  19. H.J. Zhang, Z.Z. Zhang, F. Guo, Studies of the influence of graphite and MoS2 on the tribological behaviors of hybrid PTFE/Nomex fabric composite, Tribol. Trans. 54 , 417–423 (2011) [Google Scholar]
  20. R.K. Goyal, M. Yadav, Study on wear and friction behavior of graphite flake-filled PTFE composites, J. Appl. Polym. Sci. 127 , 3186–3191 (2013) [Google Scholar]
  21. S.C. Yan, Y.L. Yang, L.Z. Song, X.W. Qi, Z. Zuo, Y.X. Xue, Tribological property of 3-aminopropyltriethoxysilane-graphite oxide nanosheets reinforced polyethersulfone composite under drying sliding condition, Tribol. Int. 103 , 316–330 (2016) [Google Scholar]
  22. A.A. Pitenis, K.L. Harris, C.P. Junk et al., Ultralow Wear PTFE and Alumina Composites: It is All About Tribochemistry, Tribol. Lett. 57 , 1–8 (2015) [Google Scholar]
  23. R. Rattan, J. Bijwe, M. Fahim, Influence of weave of carbon fabric on low amplitude oscillating wear performance of polyetherimide composites, Wear 262 , 727–735 (2006) [Google Scholar]
  24. R. Rattan, J. Bijwe, Carbon fabric reinforced polyetherimide composites: Influence of weave of fabric and processing parameters on performance properties and erosive wear, Mat. Sci. Eng. A 420 , 342–350 (2006) [Google Scholar]
  25. M.T. Demirci, H. Düzcükoğlu, Wear behaviors of Polytetrafluoroethylene and glass fiber reinforced Polyamide 66 journal bearings, Mater. Design. 57 , 260–269 (2014) [Google Scholar]
  26. N. Dusunceli, O.U. Colak, Modelling effects of degree of crystallinity on mechanical behavior of semicrystalline polymers, Int. J. Plasticity. 24 , 1224–1242 (2007) [Google Scholar]

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