This paper presents a solution to an inverse problem for the elastohydrodynamic lubrication of one-layered journal bearings. Eccentricity ratio, viscosity of the lubricant at atmospheric pressure, pressure-viscosity coefficient, and bulk modulus of the lubricant are the parameters to be estimated from a given pressure distribution. The Least-squares optimization technique is used to solve the proposed inverse problem. Results are presented only for infinite-width journal bearings. The results showed that the proposed inverse algorithm is efficient and accurate. [S0742-4787(00)00703-7]
Issue Section:
Technical Papers
1.
Karaszkiewicz
, A.
, 1987
, “Hydrodynamics of Rubber Seals for Reciprocating Motion Lubricating Film Thickness, and Out-Leakage of O-Seals
,” Ind. Eng. Chem. Res.
, 26
, No. 11
, pp. 2180
–2185
.2.
Malvano
, R.
and Vatta
, F.
, 1983
, “Influence of Fluid Inertia in Steady Laminar Lubrication
,” ASME J. Lubr. Technol.
, 105
, No. 1
, pp. 77
–83
.3.
Yamaura
, H.
and Ono
, K.
, 1991
, “Inverse Analysis of Flying Head Slider Bearings for Magnetic Disk Recording
,” Trans. Jpn. Soc. Mech. Eng., Part C
, 57
, No. 537
, pp. 1709
–1714
.4.
Stephens
, L. S.
, Scott
, L.
, and Knospe
, C. R.
, 1995
, “Determination of Power Losses in High-Speed Magnetic Journal Bearings Using Temperature Measurements
,” Exp. Heat Transfer
, 8
, No. 1
, pp. 35
–56
.5.
Higginson, G. R., 1965, “The Theoretical Effects of Elastic Deformation of the Bearing Liner on Journal Bearings Performance,” Proceedings of the Symposium on Elastohydrodynamic Lubrication, Institution of Mechanical Engineers, 180, Part 3B, pp. 31–38.
6.
Hooke
, C. J.
, Brighton
, D. K.
, and O’Donoghue
, J. P.
, 1966
, “The Effect of Elastic Distorsions on the Performance of Thin Shell Bearings
,” Proc. Inst. Mech. Eng.
, 181
, Part 3B, pp. 63
–69
.7.
O’Donoghue
, J. P.
, Brighton
, D. K.
, and Hooke
, C. J.
, 1967
, “The Effect of Elastic Distorsions on Journal Bearing Performance
,” ASME J. Lubr. Technol.
, 89
, Ser. F, No. 4
, pp. 409
–417
.8.
Brighton
, D. K.
, Hooke
, C. J.
, and O’Donoghue
, J. P.
, 1967
, “A Theoretical and Experimental Investigation of the Effect of Elastic Distorsions on the Performance of Journal Bearings
,” Proc. Inst. Mech. Eng.
, Paper 23, 182
, Pt. 3N, pp. 192
–200
.9.
Benjamin
, M. K.
and Castelli
, V. A.
, 1971
, “A Theoretical Investigation of Compliant Surface Journal Bearings
,” ASME J. Lubr. Technol.
, 93
, No. 1
, Series E, pp. 191
–201
.10.
Conway
, H. D.
and Lee
, H. C.
, 1975
, “The Analysis of the Lubrication of a Flexible Journal Bearing
,” ASME J. Lubr. Technol.
, 97
, No. 4
, pp. 599
–604
.11.
Lahmar
, M.
, Haddad
, A.
, and Nicolas
, D.
, 1998
, “Elastohydrodynamic Analysis of One-Layered Journal Bearings,” Journal of Engineering Tribology
, Proc. Inst. Mech. Eng.
, 212
, Part J, pp. 193
–205
.12.
Mokhiamer
, U. M.
, Crosby
, W. A.
, and El-Gamal
, H. A.
, 1999
, “A Study of a Journal Bearing Lubricated by Fluids with Couple Stress Considering the Elasticity of the Liner
,” Wear
, 224
, pp. 194
–201
.13.
Oh
, K. P.
, and Huebner
, K. H.
, 1973
, “Solution of the Elastohydrodynamic Finite Journal Bearing Problem
,” ASME J. Lubr. Technol.
, 95
, No. 3
, pp. 342
–352
.14.
Jain
, S. C.
, Sinhasan
, R.
, and Singh
, D. V.
, 1984
, “A Study of EHD Lubrication in a Journal Bearing with Piezoviscous Lubricants
,” ASLE Trans.
, 27
, pp. 168
–176
.15.
Oh
, K. P.
, and Goenka
, P. K.
, 1985
, “The Elastohydrodynamic Solution of Journal Bearings Under Dynamic Loading
,” ASME J. Tribol.
, 107
, pp. 389
–395
.16.
Elrod
, H. G.
, 1981
, “A Cavitation Algorithm
,” ASME J. Lubr. Technol.
, 103
, pp. 350
–354
.17.
Vijayaraghavan
, D.
, and Keith
, T. G.
, 1989
, “Development and Evaluation of a Cavitation Algorithm
,” STLE Tribol. Trans.
, 32
, No. 2
, pp. 225
–233
.18.
Jacobson, B. O., 1991, “Rheology and Elastohydrodynamic Lubrication,” Tribology Series, Vol. 19, Elsevier Science B. V., New York.
Copyright © 2000
by ASME
You do not currently have access to this content.