Thermo-hydrodynamic Analysis of Misaligned Journal Bearing Considering Surface Roughness and Non-Newtonian Effects

محتوى المقالة الرئيسي

Basim Ajeel Abass
Mustafa Mohammed Kadhim

الملخص

This paper presents a numerical simulation for the combined effect of surface roughness and non-Newtonian behavior of the lubricant on the performance of misaligned journal bearing. The modified Reynolds equation to include the effect of non-Newtonian lubricant and bearing surface roughness has been formulated. The model accounts for the lubricant viscosity dependence on temperature and shear rate. In order to make a complete thermo-hydrodynamic analysis (THD) of rough surface misaligned journal bearing lubricated with non-Newtonian lubricant, the modified Reynolds equation coupled with the energy, heat conduction equations, the equation related the viscosity and temperature with appropriate boundary conditions have been solved simultaneously. The performance characteristics of the bearing were presented with different roughness parameter for the pressure, temperature, load carrying capacity, misalignment moment and friction force. The computer program prepared to solve the governing equations of the problem has been verified by comparing the results obtained through this work with that published by different workers. It has been found
that the results are in a good agreement .The results obtained in the present work showed that the surface roughness characteristics of opposing surfaces and its orientation play an important role in affecting the performance parameters of the bearing. It has been shown that the load in rough aligned journal bearing is higher than that in rough misaligned journal bearing for all surface roughness patterns (γ). An increase in load has been calculated and found to be 29.5% for the bearing with moving roughness while it becomes
32% for the bearing with stationary roughness.

تفاصيل المقالة

كيفية الاقتباس
"Thermo-hydrodynamic Analysis of Misaligned Journal Bearing Considering Surface Roughness and Non-Newtonian Effects " (2013) مجلة الهندسة, 19(05), ص 637–653. doi:10.31026/j.eng.2013.05.10.
القسم
Articles

كيفية الاقتباس

"Thermo-hydrodynamic Analysis of Misaligned Journal Bearing Considering Surface Roughness and Non-Newtonian Effects " (2013) مجلة الهندسة, 19(05), ص 637–653. doi:10.31026/j.eng.2013.05.10.

تواريخ المنشور

المراجع

A.Dyson, “The Failure of Elastohydrodynamic Lubrication of Circumferentially Ground Discs”, Institution of Mechanical Engineers, 190, 699-711, 1976.

B. C. Majumdar, “The Thermohydrodynamic Solution of Oil Journal Bearings”, Wear, 31, 287-294.

D. Vijayraghavan and D. E. Brewe, “Effect of Rate of Viscosity Variation on the Performance of Jour-nal Bearings”, Journal of Tribology, 120,1-7, January 1998.

F. P. Brito, A. S. Miranda, J. Bouyer and M. Fillon, “Experimental Investigation of the In fluence of Supply Temperature and Supply Pressure on the Performance of a Two-Axial Groove Hydrodynamic Journal Bearings”, Transaction of the ASME, 129, 98-105,January 2007.

F. Shi and Q. Wang, “A Mixed – TEHD Model for Journal Bearing Conformal Contacts – Part I: Model Formulation and Approximation of Heat Transfer Considering Asperity Contact”, Transaction of the ASME, 120, 198-205, April 1998.

H. H. Oh and G. Parodissiadis, “Thermohydrody-namic Analysis of Journal Bearings Considering Cavita-tion and Revese Flow”, Journal of Tribology,. 110, 439-447, July 1998

J. Mitsui, Y. Hori and M. Tanaka, “Thermohy-drody- namic Analysis of Cooling Effect of Supply Oil in Circular Journal Bearing”, Transaction of the ASME, 105, 414-421, July 1983.

J. Ferron, J. Frene and R. Boncompain, “A Study of the Thermohydrodynamic Performance of a Plain Journal Bearing Comparison Between Theory and Experiments ”, ASME J. Lubr. Technol., 105, 422-428, July 1983.

J. Mitsui, Y. Hori and M. Tanaka, “An Experimental Investigation on the Temperature Distribution in Circular Journal Bearings”, Journal of Tribology, 108, 621-626, October 1986

J. Mitsui, “A Study of Thermohydrodynamic Lubrication in a Circular Journal Bearing”, Tribology International, 331-341, 1987

J. H. Tripp, “Surface Roughness Effects in Hydrody- namic Lubrication: The Flow Factor Method”, Trans-action or the ASME, 105, 458 – 465, July 1983.

J. Y. Jang and C. C. Chang, “Adiabatic Solution for A Misaligned Journal Bearing With Non-Newtonian Lubricants”, Tribology International, 20, 267-275, October 1987.

L. Roy, “Thermo-hydrodynamic Performance of Grooved Oil Journal Bearing”, Tribology International, 1187- 1198, March 2009.

M. O. A. Mokhtar, Z. S. Safar and M. A. M Abd-EI- Rahman, “An Adiabatic Solution of Misaligned Journal Bearings”, Journal of Tribology, 107, 263-268, April 1985.

Nadir Patir and H. S. Cheng, “An Average Flow Model for Determining Effects of Three-Dimensional Roughness on Partial Hydrodynamic Lubrication”, Transaction of the ASME. 100, 12-17, January 1978.

Nadir Patir and H. S. Cheng, “Application of Average Flow Model to Lubrication Between Rough Sliding Surfaces”, Transaction of the ASME, 101, 220-230, April 1979.

Oscar Pinkus and S. S. Bupara, “Analysis of Misaligned Grooved Journal Bearings”, Trans- action of the ASME J. Lubr. Techno., 101, 503-508, October 1979

Pinkus and Bupara, “Adiabatic Solution for Finite Journal Bearing”, Transaction of the ASME, 101, 492-496, October 1979.

P. H. Markho, S. S. Grewal and T. B. Stowell, “An Experimental Investigation of the Effect of Mis-alignment and Directionality on the Performance of an Externally – pressurized, Orifice- Compensated Air Journal Bearing”, Transaction of the ASME, 101, January 1979.

P. Sinha and G. Adamu, “Thermohydrodynamic Analysis for Slider Bearing with Roughness: Special Reference to Load Generation in Parallel Sliders”, Institution of Technology, 11-27, October 2008.

Q. Wang, F. Shi and Si C. Lee, “A Mixed – TEHD Model for Journal Bearing Conformal Contact – Part II: Contact, Film Thickness, and Performance Analyses”, Transaction of the ASME, Vol. 120, pp.

R. H. Buckholz and J. F. Lin, “The Effect of Journal Bearing Misalignment on Load and Cavitation for Non- Newtonian Lubricants”, Journal of Tribology, 108, 645-654, October 1986.

S. M. Chun and S. Jang, “Thermohydrodynamic Bubbly Lubrication Analysis of High Speed Journal Bearing”, Kookmin University, 2000.

S. S. Banwait, “A Comparison Performance Analysis of Non-Circular Two-lobe and Three-lobe Journal Bearings”, IE Journal, 86,

T. G. Keith. JR, “Effect of Cavitation on the Performance of A Grooved Misaligned Journal Bearing”, Wear, 134, 377-397, April 1989.

T. Nagaraju, Satish C. Sharma and S. C. Jain, “Influence of Surface Roughness on Non-Newtonian Thermohydrodynamic Performance of a Hole-Entry Hybrid Journal Bearing”, Journal of Tribology, 129, 595-602, July 2007.

W. Long Li, “Surface Roughness Effects in Hydro-dynamic Lubrication Involving the Mixture of Two Fluids”, Transaction of the ASME, 120, 772-780, October 1998.

Y. K. Yang and M. C. Jeng, “Analysis of Viscos-ity Interaction and Heat Transfer on the Dual Conical Cylin- drical Bearing”, Tribology Transaction, 77-85,February 2008.

Z. S. Safar, “Energy Loss Due to Misalignment of Journal Bearing”, Tribology International, 17, 107-110, April 1984.

Z. S. Safar and M. S. M. Riad, “Prediction ofthe Coefficient of Friction of A Misaligned Turbulent Flow Journal Bearing”, tribology International, 21,15-19, February 1988.

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