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TECHNICAL PAPERS

Thermoelastic Instability With Consideration of Surface Roughness and Hydrodynamic Lubrication

[+] Author and Article Information
J. Y. Jang

Center for Advanced Friction Studies, Southern Illinois University, Carbondale, IL 62901-66031

M. M. Khonsari

Department of Mechanical Engineering, 2508 CEBA, Louisiana State University, Baton Rouge, LA 70803e-mail: khonsari@me.lsu.edu

J. Tribol 122(4), 725-732 (May 15, 1999) (8 pages) doi:10.1115/1.1288215 History: Received January 04, 1999; Revised May 15, 1999
Copyright © 2000 by ASME
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References

Burton,  R. A., 1980, “Thermal Deformation in Frictionally Heated Contact,” Wear, 59, pp. 1–20.
Lebeck, A. O., 1991, Principles and Design of Mechanical Face Seals, Wiley, NY.
Banerjee, B. N., and Burton, R. A., 1976, “An Instability for Parallel Sliding of Solid Surfaces Separated by a Viscous Liquid Film,” ASME J. Lubr. Technol., Jan., pp. 157–166.
Banerjee,  B. N., 1980, “The Influence of Thermoelastic Deformations on the Operation of Face Seals,” Wear, 59, pp. 89–110.
Burton,  R. A., Nerlikar,  V., and Kilaparti,  R., 1973, “Thermoelastic Instability in a Seal-Like Configuration,” Wear, 24, pp. 177–188.
Patir,  N., and Cheng,  H. S., 1978, “An Average Flow Model for Determining Effects of Three-Dimensional Roughness on Partial Hydrodynamic Lubrication.” ASME J. Lubr. Technol., 100, pp. 12–17.
Patir,  N., and Cheng,  H. S., 1979, “Application of Average Flow Model to Lubrication Between Rough Sliding Surfaces,” ASME J. Lubr. Technol., 101, pp. 220–230.
Natsumeda,  S., and Miyoshi,  T., 1994, “Numerical Simulation of Engagement of Paper Based Wet Clutch Facing,” ASME J. Tribol., 116, pp. 232–237.
Greenwood,  J. A., and Williamson,  J. B. P., 1966, “Contact of Nominally Flat Surfaces,” Proc. R. Soc. London, 295, pp. 300–319.
Jang, J. Y., and Khonsari, M. M., 1999, “Thermoelastic Instability Including Surface Roughness Effects,” to appear in ASME J. Tribol.
Zagrodzki,  P., 1990, “Analysis of Thermomechanical Phenomena in Multidisc Clutches and Brakes,” Wear, 140, pp. 291–308.
Netzel,  J. P., 1980, “Observation of Thermoelastic Instability in Mechanical Face Seals,” Wear, 59, pp. 135–148.
Lebeck,  A. O., 1980, “The Effect of Ring Defection and Heat Transfer on the Thermoelastic Instability of Rotating Face Seals,” Wear, 59, pp. 121–133.

Figures

Grahic Jump Location
Critical speed versus film thickness based on stationary wave solution
Grahic Jump Location
Effect of surface characteristic parameter based on stationary wave solution (n=3)
Grahic Jump Location
Critical speed versus film thickness based on moving wave solution for n=3
Grahic Jump Location
Critical speed of a mechanical face seal lubricated with water and anhydrous ammonia at Ho=2.5
Grahic Jump Location
Critical speed versus film thickness based on moving wave solution for n=5
Grahic Jump Location
Critical speed versus number of disturbances based on moving wave solution at Ho=2

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