DOI Prefix : 10.9780 | Journal DOI : 10.9780/22307850
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Volume : IV, Issue : IV, May - 2014

PERFORMANCE OF A MAGNETIC FLUID BASED LONGITUDINALLY ROUGH PLANE SLIDER BEARING

Paresh I. Andharia, Gunamani Deheri

DOI : 10.9780/22307850, By : Laxmi Book Publication

Abstract :

The analysis on the performance of a longitudinally rough plane slider bearing under the presence of magnetic fluid is presented. The magnetic field is oblique to the stator and the bearing surfaces are assumed to be longitudinally rough. The roughness of the bearing surfaces is characterized by a stochastically random variable with non-zero mean, variance and skewness. The concerned Reynolds equation is averaged with respect to the random roughness parameters. This equation is solved with appropriate boundary conditions to obtain the expression for pressure distribution which is further used to calculate the load carrying capacity. The results are presented graphically. It is seen that the load carrying capacity increases due to the magnetic fluid lubricant. It is also observed that the roughness affects the bearing performance adversely. The study reveals that the negative effect of roughness can be minimized by the positive effect of magnetization.

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    Article :


    Cite This Article :

    Paresh I. Andharia, Gunamani Deheri(2014). PERFORMANCE OF A MAGNETIC FLUID BASED LONGITUDINALLY ROUGH PLANE SLIDER BEARING. Indian Streams Research Journal, Vol. IV, Issue. IV, DOI : 10.9780/22307850, http://isrj.org/UploadedData/4643.pdf

    References :

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    16. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
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    18. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
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    32. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    33. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    34. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    35. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    36. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    37. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    38. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    39. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    40. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    41. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    42. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    43. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    44. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    45. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    46. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    47. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    48. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    49. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    50. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    51. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    52. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    53. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    54. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    55. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    56. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    57. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    58. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    59. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    60. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    61. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
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    65. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    66. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    67. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    68. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    69. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    70. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
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    72. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    73. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    74. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    75. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    76. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    77. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    78. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    79. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    80. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    81. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    82. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    83. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    84. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    85. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    86. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    87. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    88. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    89. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    90. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    91. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    92. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    93. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    94. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    95. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    96. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    97. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    98. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    99. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    100. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    101. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    102. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    103. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    104. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    105. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    106. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    107. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    108. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    109. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    110. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    111. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    112. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    113. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    114. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    115. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    116. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    117. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    118. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    119. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    120. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    121. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    122. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    123. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    124. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    125. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    126. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    127. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    128. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    129. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    130. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    131. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    132. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    133. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    134. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    135. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    136. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    137. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    138. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    139. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    140. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    141. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    142. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    143. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    144. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    145. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    146. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    147. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    148. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    149. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    150. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    151. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    152. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    153. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    154. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    155. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    156. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    157. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    158. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    159. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    160. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    161. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    162. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    163. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    164. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    165. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    166. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    167. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    168. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    169. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    170. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    171. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    172. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    173. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    174. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    175. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    176. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    177. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    178. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    179. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    180. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    181. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    182. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    183. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    184. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    185. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    186. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    187. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    188. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    189. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    190. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    191. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    192. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    193. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    194. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    195. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    196. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    197. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    198. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    199. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    200. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    201. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    202. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    203. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    204. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    205. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    206. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    207. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    208. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    209. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    210. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    211. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    212. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    213. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    214. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    215. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    216. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    217. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    218. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    219. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    220. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    221. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    222. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    223. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    224. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    225. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    226. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    227. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    228. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    229. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    230. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    231. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    232. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    233. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    234. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    235. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    236. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    237. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    238. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    239. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    240. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    241. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    242. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    243. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    244. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    245. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    246. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    247. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    248. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    249. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    250. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    251. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    252. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    253. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    254. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    255. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    256. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    257. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    258. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    259. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    260. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    261. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    262. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    263. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    264. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    265. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    266. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    267. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    268. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    269. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    270. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    271. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    272. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    273. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    274. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    275. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    276. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    277. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    278. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    279. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    280. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    281. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    282. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    283. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    284. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    285. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    286. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    287. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    288. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    289. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    290. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    291. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    292. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    293. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    294. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    295. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    296. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    297. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    298. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    299. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    300. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    301. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    302. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    303. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    304. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    305. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    306. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    307. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    308. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    309. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    310. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    311. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    312. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    313. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    314. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    315. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    316. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    317. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    318. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    319. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    320. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    321. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    322. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    323. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    324. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    325. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    326. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    327. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    328. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    329. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    330. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    331. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    332. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    333. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    334. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    335. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    336. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    337. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    338. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    339. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    340. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    341. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    342. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    343. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    344. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    345. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    346. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    347. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    348. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    349. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    350. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    351. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    352. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    353. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    354. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    355. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    356. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    357. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    358. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    359. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    360. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    361. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    362. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    363. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    364. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    365. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    366. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    367. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    368. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    369. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    370. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    371. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    372. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    373. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    374. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    375. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    376. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    377. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    378. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    379. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    380. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    381. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    382. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    383. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    384. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    385. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    386. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    387. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    388. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    389. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    390. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    391. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    392. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    393. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    394. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    395. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    396. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    397. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    398. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    399. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    400. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    401. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    402. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    403. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    404. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    405. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    406. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    407. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    408. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    409. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    410. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    411. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    412. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    413. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    414. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    415. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    416. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    417. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    418. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    419. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    420. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    421. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    422. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    423. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    424. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    425. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    426. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    427. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    428. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    429. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    430. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    431. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    432. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    433. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    434. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    435. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    436. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    437. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    438. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    439. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    440. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    441. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    442. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    443. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    444. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    445. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    446. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    447. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    448. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    449. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    450. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    451. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    452. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    453. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    454. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    455. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    456. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    457. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    458. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    459. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    460. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    461. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    462. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    463. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    464. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    465. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    466. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    467. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    468. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    469. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    470. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    471. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    472. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    473. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    474. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    475. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    476. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    477. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    478. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    479. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    480. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    481. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    482. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    483. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    484. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    485. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    486. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    487. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    488. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    489. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    490. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    491. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    492. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    493. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    494. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    495. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    496. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    497. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    498. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    499. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    500. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    501. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    502. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    503. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    504. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    505. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    506. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    507. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    508. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    509. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    510. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    511. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    512. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    513. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    514. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    515. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    516. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    517. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    518. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    519. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    520. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    521. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    522. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    523. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    524. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    525. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    526. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    527. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    528. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    529. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    530. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    531. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    532. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    533. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    534. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    535. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    536. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    537. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    538. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    539. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    540. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    541. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    542. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    543. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    544. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    545. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    546. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    547. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    548. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    549. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    550. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    551. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    552. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    553. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    554. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    555. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    556. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    557. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    558. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    559. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    560. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    561. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    562. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    563. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    564. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    565. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    566. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    567. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    568. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    569. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    570. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    571. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    572. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    573. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    574. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    575. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    576. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    577. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    578. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    579. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    580. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    581. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    582. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    583. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    584. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    585. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    586. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    587. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    588. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    589. Prakash J. and Tiwari K. (1982), "Lubrication of a porous bearing with surface corrugations", J. Lub. Tech., Trans. ASME, 104, p. 127-134.
    590. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    591. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    592. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    593. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    594. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    595. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    596. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    597. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    598. Prajapati B. L. (1992), "Squeeze film behaviour between rotating porous circular plates with a concentric circular pocket: Surface roughness and elastic deformation effects", WEAR, 152, p. 301.
    599. Deheri G. M., Andharia P. I. and Patel R. M. (2005), “Transversely rough slider bearing with squeeze film formed by a magnetic fluid”, International Journal of Applied Mechanics and Engineering, Vol.10, No.1, pp.53-76.
    600. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    601. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    602. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    603. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    604. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    605. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    606. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    607. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    608. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    609. Bhat M. V. (2003), “Lubrication with a magnetic fluid”, Team Spirit (India) Pvt. Ltd
    610. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    611. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    612. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    613. Bagci C. and Singh A. P. (1983), "Hydrodynamic lubrication of finite slider bearing: Effect of one dimensional film shape and their computer aided optimum designs", ASLE Trans., J. Lub. Tech., 105, p. 48-66.
    614. Guha S. K. (1993), "Analysis of dynamic characteristics of hydrodynamic journal bearings with isotropic roughness effects", WEAR, 167, p. 173-179
    615. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    616. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    617. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    618. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    619. Ting L. L. (1975), "Engagement behaviour of lubricated porous annular disks Part I: Squeeze film phase, surface roughness and elastic deformation effects", WEAR, 34, p. 159-182.
    620. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    621. Davis M. G. (1963), "The generation of pressure between rough fluid lubricated, moving, deformable surfaces", Lub. Engg., 19, p. 246.
    622. Agrawal V. K. (1986), "Magnetic-fluid-based porous inclined slider bearing", WEAR, 107, p. 133-139.
    623. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    624. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    625. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    626. Andharia P. I., Gupta J. L. and Deheri G. M. (1999), “Effects of transverse surface roughness on the behavior of squeeze film in a spherical bearing”, Journal of Applied Mechanics and Engineering, Vol.4, pp.19-24.
    627. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    628. Christensen H. and Tonder K. C. (1969.a), "Tribology of rough surfaces: Stochastic models of hydrodynamic lubrication", SINTEF Report No. 10/69-18.
    629. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    630. Tzeng S. T. and Saibel E. (1967), "Surface roughness effect on slider bearing lubrication", Trans. ASME, J. Lub. Tech., 10, p. 334-338.
    631. Andharia P. I., Gupta J. L. and Deheri G. M. (1997), "Effect of longitudinal surface roughness on hydrodynamic lubrication of slider bearings", Proc. Tenth International Conference on Surface Modification Technologies, The Institute of Materials, p. 872-880.
    632. Pinkus O. and Sternlitcht B. (1961), "Theory of hydrodynamic lubrication", McGraw Hill Book Company, New York.
    633. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    634. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    635. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    636. Prakash J. and Tiwari K. (1983), "Roughness effects in porous circular squeeze-plates with arbitrary wall thickness", J. Lub. Tech., 105, p. 90.
    637. Prajapati B. L. (1991), "Behaviour of squeeze film between rotating porous circular plates: Surface roughness and elastic deformation effects", Pure and Appl. Math. Sci., 33 (1-2), p. 27.
    638. Bhat M. V. and Patel C. M. (1981), "The squeeze film in an inclined porous slider bearing”, WEAR, 66, p. 189-193.
    639. Gupta J. L. and Deheri G. M. (1996), "Effect of roughness on the behaviour of squeeze film in a spherical bearing", Tribology Transactions, 39, p. 99-102.
    640. Burton R. A. (1963), "Effect of two dimensional sinusoidal roughness on the load support characteristics of a lubricant film", J. Basic Engg. Trans. ASME, 85, p. 258-264.
    641. Christensen H. and Tonder K. C. (1969.b), "Tribology of rough surfaces: Parametric study and comparison of lubrication models", SINTEF Report No. 22/69-18.
    642. Bhat M. V. (1978), "Hydrodynamic lubrication of a porous composite slider bearing”, Jap. J. App. Phys., 17, p. 479-481.
    643. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    644. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.
    645. Christensen H. and Tonder K. C. (1970), "The hydrodynamic lubrication of rough bearing surfaces of finite width", ASME-ASLE lubrication conference; Paper No. 70-Lub-7.
    646. Hamrock B. J. (1994), "Fundamentals of fluid film lubrication", McGraw Hill, New York.
    647. Bhat M. V. and Deheri G. M. (1991), "Porous composite slider bearing lubricated with magnetic fluid”, Japanese Journal of Applied Physics, 30, p. 2513-2514.

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