Publication de 6 numéros par an
ISSN Imprimer: 2152-5102
ISSN En ligne: 2152-5110
Indexed in
Behavior of Magnetic Fluid Based Squeeze Film Between Porous Circular Plates with Porous Matrix of Variable Thickness
RÉSUMÉ
Efforts have been made to study and analyze the performance of a magnetic fluid based squeeze film between porous circular plates with porous matrix of variable film thickness. The associated Reynolds equation is solved with appropriate boundary conditions and the expressions for pressure, load carrying capacity and response time are obtained. The results are presented graphically as well as in tabular form. It is observed that these performance characteristics increase with the increasing magnetization parameter thereby, indicating that the performance of the bearing with magnetic fluid lubricant is better than that with the conventional lubricant. Moreover, there is a very significant observation that for a proper selection of the thickness ratio parameter, a magnetic fluid based squeeze film bearing with variable porous matrix thickness can be made to perform considerably better than that of a conventional porous bearing with a uniform porous matrix thickness working with a conventional lubricant.
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Patel Jimit R., Deheri Gunamani, Combined Effect of Surface Roughness and Slip Velocity on Jenkins Model Based Magnetic Squeeze Film in Curved Rough Circular Plates, International Journal of Computational Mathematics, 2014, 2014. Crossref
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Liu Hong Bin, Li Ji Shun, Xue Yu Jun, Ma Wei, Study on the Friction Characteristics of Different Lubrication Modes under Alternating Magnetic Field, Key Engineering Materials, 455, 2010. Crossref
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Patel Hardik P., Deheri G. M., Patel R. M., Study of Squeeze Film in a Ferrofluid Lubricated Longitudinally Rough Rotating Plates, in Soft Computing for Problem Solving, 1057, 2020. Crossref
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Indubhai Andharia Paresh, Deheri Gunamani, Longitudinal roughness effect on magnetic fluid‐based squeeze film between conical plates, Industrial Lubrication and Tribology, 62, 5, 2010. Crossref