Abstract
An attempt has been made to investigate the performance characteristics of a hydrodynamic long journal bearing taking recourse to a magnetic fluid lubricant. With the usual assumptions of hydromagnetic concern Reynold’s equation for the fluid film pressure is solved with Sommerfeld boundary conditions. This leads to the calculation of load carrying capacity. The results are presented graphically. It is found that the pressure is marginally affected by clearance ratio. It is noticed that the bearing system records an enhanced performance owing to magnetic fluid lubricant. Undoubtedly, the eccentricity ratio plays a performance role in the augmented performance. In addition, there appears to be less possibility of cavitation due to magnetic fluid lubricant.
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References
Cameron A (1966) Principles of lubrication. Longmans, London
Majumdar BC (2010) Introduction to tribology of bearings. S Chand & Company Ltd
Hemrock BJ (1994) Fundamental of fluid film lubrication. McGraw-Hill, New York
Prakash J, Gururajan K (1999) Effect of velocity slip in an infinitely long rough porous journal bearing. Tribol Trans 42(3):661–667
Wang JK, Khonsari MM (2008) Effects of oil inlet pressure and inlet position of axially grooved infinitely long journal bearings Part I: analytical solutions and static performance. Tribol Int 41:119–132
Shah RC, Bhat MV (2004) Ferrofluid squeeze film in a long journal bearing. Tribol Int 37:441–446
Patel NS, Vakharia DP, Deheri GM (2012) A study on the performance of a magnetic-fluid-based hydrodynamic short journal bearing. ISRN Mech Eng 7, doi:10.5402/2012/603460
Patel NS, Vakharia DP, Deheri GM (2012) A Study on the performance of a magnetic fluid based hydrodynamic short porous journal bearing. J Serb Soc Comput Mech 6(2):28–44
Aggrawal N, Chawla D, Kumar V, Tayal A, Mittal S, Kumar P(2013) Analysis of hydrodynamic lubrication in infinitely long journal bearing with oscillating velocity. IJIEASR, 2(2):45–48
Agrawal VK (1986) Magnetic fluid based porous inclined slider bearing. WEAR 107:133–139
Neuringer JL, Rosensweig RE (1964) Phys Fluids 7:19–27
Bhat MV, Deheri GM (1991) Squeeze film behavior in porous annular discs lubricated with magnetic fluid. Wear 151:123–128
Bhat MV (1978) Hydrodynamic lubrication of a porous composite slider bearing. Jpn J Appl Phys 17:479–481
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Patel, N.S., Vakharia, D.P., Deheri, G.M., Patel, H.C. (2014). The Performance Analysis of a Magnetic Fluid-Based Hydrodynamic Long Journal Bearing. In: Patel, H., Deheri, G., Patel, H., Mehta, S. (eds) Proceedings of International Conference on Advances in Tribology and Engineering Systems. Lecture Notes in Mechanical Engineering. Springer, New Delhi. https://doi.org/10.1007/978-81-322-1656-8_10
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DOI: https://doi.org/10.1007/978-81-322-1656-8_10
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