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Tribology Letters

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01.04.2014 | Original Paper

Experimental Study on Lubrication Film Thickness Under Different Interface Wettabilities

verfasst von: F. Guo, S. Y. Yang, C. Ma, P. L. Wong

Erschienen in: Tribology Letters | Ausgabe 1/2014

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Abstract

This paper describes some experimental studies about the effect of interface wettability on hydrodynamic lubrication film thickness by a custom-made slider bearing tester. The lubricated contact pair consists of a fixed-incline slider and a transparent disc, and a thin lubrication film can be generated when the disc rotates. The film thickness was measured by interferometry. The wettability of different slider surfaces was evaluated by the contact angle of the lubricant on them. The relationship of film thickness versus disc speed was measured under different liquid–solid interfaces, and the results showed that slider surfaces with strong wettability to the lubricant could generate higher film thickness. Furthermore, case experiments were carried out to validate the hydrodynamic effect by tailored-slippage. By numerical simulations, the experimental findings were tentatively explained with the phenomenon of wall slippage.

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Patton, S.T., Zabinski, J.S.: Failure mechanisms of a MEMS actuator in very high vacuum. Tribol. Int. 35, 373–379 (2002)CrossRef

Nosonovsky, M., Bhushan, B.: Multiscale friction mechanisms and hierarchical surfaces in nano- and bio-tribology. Mater. Sci. Eng. R58, 162–193 (2007)CrossRef

Priezjev, N.V., Troian, S.M.: Molecular origin and dynamic behavior of slip in sheared polymer films. Phys. Rev. Lett. 92(1), 018302 (2004)CrossRef

Wang, H., Hu, Y.Z., Guo, Y.: Molecular dynamics study of the interfacial slip phenomenon in ultrathin lubricating films. Lubr. Sci. 16(3), 303–314 (2006)CrossRef

Voronov, R.S., Papavassiliou, D.V., Lee, L.L.: Review of fluid slip over superhydrophobic surfaces and its dependence on the contact angle. Ind. Eng. Chem. Res. 47, 2455–2477 (2008)CrossRef

Vinogradova, O.I.: Slippage of water over hydrophobic surfaces. Int. J. Miner. Process. 56, 31–60 (1999)CrossRef

Spikes, H., Granick, S.: Equation for slip of simple liquids at smooth solid surfaces. Langmuir 19, 5065–5071 (2003)CrossRef

Wu, C.W., Zhou, P., Ma, G.J.: Squeeze fluid film of spherical hydrophobic surfaces with wall slip. Tribol. Int. 39, 863–872 (2006)CrossRef

Spikes, H.A.: The half-wetting bearing. Part 1: extended Reynolds equation. J. Eng. Tribol. 217(1), 1–14 (2003)

10.

Salant, R.F., Fortier, A.E.: Numerical analysis of a slider bearing with a heterogeneous slip/no-slip surface. Tribol. Trans. 47, 328–334 (2004)CrossRef

11.

Guo, F., Wong, P.L.: Theoretical prediction of hydrodynamic effect by tailored boundary slippage. Proc. Instn. Mech. Eng. J. Eng. Tribol. 220(1), 43–48 (2006)CrossRef

12.

Wu, C.W., Ma, G.J., Zhou, P., Wu, C.D.: Low Friction and high load support capacity of slider bearing with a mixed slip surface. ASME J. Tribol. 128, 904–907 (2006)CrossRef

13.

Chen, C., Chen, Q., Li, W.: Characteristics of journal bearings with anisotropic slip. Tribol. Int. 61, 144–155 (2013)CrossRef

14.

Zhang, Y.: A titled pad thrust slider bearing improved by the boundary slippage. Meccanica 48(4), 760–781 (2013)CrossRef

15.

Zhu, Y.X., Granick, S.: Rate-dependent slip of Newtonian liquid at smooth surfaces. Phys. Rev. Lett. 87, 096105 (2001)CrossRef

16.

Craig, V.S.J., Neto, C., Williams, D.R.M.: Shear-dependent boundary slip in an aqueous Newtonian liquid. Phys. Rev. Lett. 87, 054504 (2001)CrossRef

17.

Hild, W., Opitz, A., Schaefer, J.A., Scherge, M.: The effect of wetting on the microhydrodynamics of surfaces lubricated with water and oil. Wear 254, 871–875 (2003)CrossRef

18.

Choo, J.H., Spikes, H.A., Ratoi, M., Glovnea, R., Forrest, A.: Friction reduction in low-load hydrodynamic lubrication with a hydrophobic surface. Tribol. Int. 40, 154–159 (2007)CrossRef

19.

Choo, J.H., Glovnea, R.P., Forrest, A.K., Spikes, H.A.: A low friction bearing based on liquid slip at the wall. ASME J. Tribol. 129, 611–620 (2007)CrossRef

20.

Liu, S., Ma, L., Zhang, C., Lu, X.: Effects of surface hydrophilicity on the confined water film. Appl. Phys. Lett. 91, 253110 (2007)CrossRef

21.

Leong, J.Y., Reddyhoff, T., Sinha, S.K., Holmes, A.S., Spikes, H.A.: Hydrodynamic friction reduction in a MAC-hexadecane lubricated MEMS contact. Tribol. Lett. 49, 217–225 (2013)CrossRef

22.

Guo, F., Wong, P.L., Fu, Z., Ma, C.: Interferometry measurement of lubricating film in slider-on-disc contacts. Tribol. Lett. 39(1), 71–79 (2010)CrossRef

23.

Foord, C.A., Wedeven, L.D., Westlake, F.J., Cameron, A.: Optical elastohydrodynamics. Proc. Inst. Mech. Eng. 184: 487–505 (1969–1970)

24.

Yang, S.Y., Wang, H.F., Guo, F.: Study on the load-carrying mechanism of a parallel step bearing. Proc. Inst. Mech. Eng. J. Eng. Tribol. doi:10.1177/1350650113513014. (2013)

25.

Erbil, H.Y.: Surface Chemistry of Solid and Liquid Interfaces. Blackwell, Malden (2006)

26.

Larrazabal, H.J., Hrymak, A.N., Vlachopoulos, J.: On the relationship between the work of adhesion and the critical shear stress for the onset of flow instabilities. Rheol. Acta 45, 705–715 (2006)CrossRef

Titel: Experimental Study on Lubrication Film Thickness Under Different Interface Wettabilities
verfasst von: F. Guo
S. Y. Yang
C. Ma
P. L. Wong
Publikationsdatum: 01.04.2014
Verlag: Springer US
Erschienen in: Tribology Letters / Ausgabe 1/2014
Print ISSN: 1023-8883
Elektronische ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-014-0310-7

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