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Abstract

A comprehensive thermal line contact solution has been obtained by using measured rheological properties, both shear and bulk properties, of the two liquids employed in the Glovnea and Spikes experimental observations of anharmonic variation of film thickness. The appearance of the anharmonic response to harmonic variation of velocity was material and frequency dependent. One of the experimental liquids crosses the liquid to glass boundary within the contact and the volume anomaly arising from differences in glass pressure because of temperature variation has been modelled. This is the first thermal elastohydrodynamic analysis to include the history-dependent equation of state (the glass transition). It can be established that anharmonic variation of film thickness from harmonic variation of entrainment velocity cannot be realistically explained from solutions of the Reynolds equation.

Keywords

transient elastohydrodynamic lubrication thermal elastohydrodynamic lubrication non-Newtonian elastohydrodynamic lubrication glass transition time-dependence rheology

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References

Glovnea

R. P.

Spikes

H. A.

Dalmaz

Lubrecht

A. A.

Dowson

Priest

‘The influence of lubricant properties on film thickness in variable speed conditions’

In Transient processes in tribology (Amsterdam: Elsevier 2004): 401–409

Venner

C. H.

Hagmeijer

‘Film thickness variations in elasto-hydrodynamically lubricated circular contacts induced by oscillatory entrainment speed conditions’

Proc. IMechE, Part J: J. Engineering Tribology 222 J4 (2008): 533-547 DOI: 10.1243/13506501JET306

Yasutomi

Bair

Winer

W. O.

‘An application of a free volume model to lubricant rheology 1 - dependence of viscosity on temperature and pressure’

ASME J. Tribol. 106 (1984): 291–303

Bair

‘Pressure-viscosity behavior of lubricants to 1.4 GPa and its relation to EHD traction’

STLE Tribol. Trans. 431 (2000): 91–99

Bair

Roland

C. M.

Casalini

‘Fragility and the dynamic crossover in lubricants’

Proc. IMechE, Part J: J. Engineering Tribology 221 J7 (2007): 801-811 DOI: 10.1243/13506501JET278

Bair

High-pressure rheology for quantitative elastohydrodynamics (Amsterdam: Elsevier Science 2007): 56, 68, 163, 185

Carreau

P. J.

‘Rheological equations from molecular network theories’

Trans. Soc. Rheol. 161 (1972): 99–127

Bezot

Hesse-Bezot

Berthe

Dalmaz

Vergne

‘Viscoelastic properties opf 5P4E as a function of pressure and temperature by light scattering technique’

ASME J. Tribol. 108 (1986): 579–583

Barlow

A. J.

Harrison

Irving

J. B.

Kim

M. G.

Lamb

Pursley

W. C.

‘The effect of pressure on the viscoelastic properties of liquids’

Proc. R. Soc. Lond. A 327 (1972): 403–412

10.

Bair

Dowson

‘Recent developments in high-pressure rheology of lubricants’

In Lubricants and lubrication (Amsterdam, The Netherlands: Elsevier Science 1995): 169–187

11.

McKinney

J. E.

Goldstein

‘PVT Relationships for liquid and glassy poly(vinyl acetate)’

J. Res. Natl Bur. Stand. - A, Phys. Chem. 78A 3 (1974): 331–353

12.

Larsson

Andersson

‘Lubricant thermal conductivity and heat capacity under high pressure’

Proc. IMechE, Part J: J. Engineering Tribology 214 J4 (2000): 337-342 DOI: 10.1243/1350650001543223

13.

Richmond

Nilsson

Sandburg

‘Thermal properties of some lubricants under pressure’

J. Appl. Phys. 56 (7): 2065–2067

14.

Kumar

Jain

S. C.

Ray

‘Thermal EHL of rough rolling/sliding line contacts using a mixture of two fluids at dynamic loads’

ASME J. Tribol. 124 (2002): 709–715

15.

Kumar

Khonsari

M. M.

‘Combined effect of shear thinning and viscous heating on EHL characteristics of rolling/sliding line contacts’

ASME J. Tribol. 130 (2008): 041505

16.

Bair

Khonsari

Winer

W. O.

‘High-pressure rheology of lubricants and limitations of the Reynolds equation’

Tribol. Int. 3110 (1998): 573–586

Anharmonic variations in elastohydrodynamic film thickness resulting from harmonically varying entrainment velocity

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