Efforts have been made to analyze the Shliomis model based ferrofluid lubrication of a squeeze film between rotating rough curved circular plates where the upper plate has a porous facing. Different models of porosity are treated. The stochastic modeling of Christensen and Tonder has been employed to evaluate the effect of surface roughness. The related stochastically averaged Reynolds type equation is numerically solved to obtain the pressure distribution, leading to the calculation of load carrying capacity. The results presented in graphical form establish that the Kozeny-Carman model is more favorable as compared to the Irmay one from the design point of view. It is observed that the Shliomis model based ferrofluid lubrication performs relatively better than the Neuringer-Rosensweig one. Although the bearing suffers due to transverse surface roughness, with a suitable choice of curvature parameters and rotational ratio, the negative effect of porosity and standard deviation can be minimized by the ferrofluid lubrication at least in the case of negatively skewed roughness.

Wu, Hai, 1971, The squeeze film between rotating porous annular disks, Wear, 18(6), pp. 461-470.

Murti P.R.K., 1974, Squeeze-Film Behavior in Porous Circular Disks, Journal of Lubrication Technololgy, 96(2), pp. 206-209.

Vora, K.H., Bhat, M.V., 1980, The Load capacity of a squeeze film between curved porous rotating circular plates, Wear, 65, pp. 39-46.

Ram, Paras, Kumar, Vikas, 2012, Ferrofluid flow with magnetic field-dependent viscosity due to rotating disk in porous medium, International Journal of Applied Mechanics, 4(4), pp. 1250041-58.

Verma, P.D.S., 1986, Magnetic fluid-based squeeze film, International Journal of Engineering Science, 24(3), pp. 395-401.

Lu, R.F., Chien, R.D., Lin, J.R., 2006, Effects of fluid inertia in magneto-hydrodynamic annular squeeze films, Tribology International, 39(3), pp. 221-226.

Hsu, C.H., Lai, C., Hung, C.R., Lin, J.R., 2008, Magneto-hydrodynamic squeeze film characteristics between circular discs including rotational inertial effects, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 222(2), pp. 157-164.

Zueco, Joaquín, Bég, O. Anwar, 2010, Network numerical analysis of hydromagnetic squeeze film flow dynamics between two parallel rotating disks with induced magnetic field, Tribology International, 43(3), pp. 532-543.

Huang, W., Cong, S., Liao, S., 2011, Study of the ferrofluid lubrication with an external magnetic field, Tribology Letters, 41, pp. 145-151.

Patel, J.R., Deheri, G.M., 2013, Shliomis Model Based Ferrofluid Lubrication of Squeeze Film in Rotating Rough Curved Circular Disks with Assorted Porous Structures, American Journal of Industrial Engineering, 1(3), pp. 51-61.

Ting, L.L., 1972, A Mathematical Analog for Determination of Porous Annular Disk Squeeze Film Behavior Including the Fluid Inertia Effect, J. Basic Eng., 94(2), pp. 417-421.

Wu, Hai, 1978, A review of porous squeeze films, Wear, 47(2), pp. 371-385.

Bhat, M.V., Deheri, G.M., 1991, Squeeze film behaviour in porous annular discs lubricated with magnetic fluid, Wear, 151(1), pp. 123-128.

Bhat, M.V., Deheri, G.M., 1993, Magnetic-fluid-based squeeze film in curved porous circular discs, Journal of Magnetism and Magnetic Materials, 127(1–2), pp. 159-162.

Elsharkawy, A.A., Nassar, M.M., 1996, Hydrodynamic lubrication of squeeze-film porous bearings, Acta Mechanica, 118(1-4), pp. 121-134.

Gupta J.L., Deheri, G.M. 1996, Effect of roughness on the behavior of squeeze film in a spherical bearing, Tribology Transaction, 39, pp. 99-102.

Deheri, G.M., Patel, R.M., Abhangi, N.D., 2010, Magnetic fluid based squeeze film between transversely rough curved plates, Advanced Tribology(Proceedings of CIST2008 & ITS-IFToMM2008), pp. 54-55.

Basti, D.P., 2013, Effect of surface roughness and couple stress on squeeze films between curved annular plates, ISRN Tribology, 2013, Article Id 640178.

Prakash, J., Tiwari, K., 1983, Roughness effects in porous circular squeeze-plates with arbitrary wall thickness, Journal of Lubrication Technology, 105, pp. 90-95.

Deheri, G.M., Patel, H.C., Patel, R.M., 2007, Behaviour of magnetic fluid based squeeze film between porous circular plates with porous matrix of variable thickness, International Journal of Fluid mechanics, 34(6), pp. 506-514.

Vadher, P.A., Vinodchandra, P.C., Deheri, G.M., Patel, R.M., 2008, Behaviour of hydromagnetic squeeze film between two conducting rough porous circular plates, Journal of Engineering Tribology, 222 (part J), pp. 569-579.

Patel, J.R., Deheri, G.M., 2013, Shliomis model based magnetic fluid lubrication of a squeeze film in rotating rough curved circular plates, Caribbean Journal of Science and Technology, 1, pp. 138-150.

Patel, J.R., Deheri, G., 2014, Shliomis model-based magnetic squeeze film in rotating rough curved circular plates: a comparison of two different porous structures, Int. J. Computational Materials Science and Surface Engineering, 6(1), pp. 29–49.

Christensen, H., Tonder, K.C., 1969, Tribology of rough surfaces: stochastic models of hydrodynamic lubrication, SINTEF, Report No. 10, pp. 69-18.

Christensen, H., Tonder, K.C., 1969, Tribology of rough surfaces: parametric study and comparison of lubrication models, SINTEF, Report No. 22, pp. 69-18.

Christensen, H., Tonder, K.C., 1970, The hydrodynamic lubrication of rough bearing surfaces of finite width, ASME-ASLE Lubrication Conference, Cincinnati. OH. Paper no. 70-lub-7.

Bhat, M.V., 2003, Lubrication with a Magnetic fluid, India: Team Spirit (India) Pvt. Ltd.

Abhangi, N.D., Deheri, G.M., 2012, Numerical modeling of squeeze film performance between rotating transversely rough curved circular plates under the presence of a magnetic fluid lubricant, ISRN Mechanical Engineering, 2012, Article ID 873481.

Shliomis, M. I., 1972, Effective viscosity of magnetic suspensions, Sov. Physics JETP., 34, pp. 1291-1294.

Prajapati, B.L., 1995, On Certain Theoretical Studies in Hydrodynamic and Electro-magneto hydrodynamic Lubrication, PhD thesis, S.P. University, Vallabh Vidyanagar, Gujarat, India.

Deheri, G.M., Andharia, P.I., Patel, R.M., 2005, Transversely rough slider bearings with squeeze film formed by a magnetic fluid, International Journal of Applied Mechanics and Engineering, 10(1), pp. 53-76.

Liu, J., 2009, Analysis of a porous elastic sheet damper with a magnetic fluid, Journal of Tribology, 131, pp. 0218011-15.

Patel, J.R., Deheri, G.M., 2013, A comparison of porous structures on the performance of a magnetic fluid based rough short bearing, Tribology in industry, 35(3), pp. 177-189.

Irmay, S., 1955, Flow of liquid through cracked media, Bull. Res. Counc. Isr, 5A(1), pp. 84.