On the Steady Performance of Annular Hydrostatic Thrust Bearing: Rabinowitsch Fluid Model

Singh, Udaya P.; Gupta, Ram S.; Kapur, V. K.

doi:10.1115/1.4007350

Cited by 27 publications

(24 citation statements)

References 13 publications

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“…This model has its significance as the three major categories for fluid are depicted for different values of nonlinear factor β, i.e., for β = 0 this model represents Newtonian fluids, for β < 0 it represents shear thickening fluids, and for β > 0 it exhibits behaviour of shear thinning fluids. Many researchers had considered this model for the experimental and theoretical analysis of squeeze film, annular disk, externally pressurized bearing, journal bearing, and pivoted curved slider bearings [8,9]. However, no one has attempted to examine Rabinowitsch fluid model for peristaltic flows in a curved channel.…”

Section: Introductionmentioning

confidence: 98%

Application of Rabinowitsch Fluid Model for the Mathematical Analysis of Peristaltic Flow in a Curved Channel

Maraj

Nadeem

2015

Zeitschrift Für Naturforschung A

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The present work is the mathematical investigation of peristaltic flow of Rabinowitsch fluid in a curved channel. The current problem is modeled and solutions for non-dimensional differential equation are obtained under low Reynolds number and long wavelength approximation. The effects of long lasting non-dimensional parameters on exact solution for velocity profile, pressure rise and shear stresses are studied graphically in the last section. Tables are also incorporated for shear stresses at the walls of the curved channel.

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Section: Introductionmentioning

confidence: 98%

Application of Rabinowitsch Fluid Model for the Mathematical Analysis of Peristaltic Flow in a Curved Channel

Maraj

Nadeem

2015

Zeitschrift Für Naturforschung A

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“…Singh at el. adopted Rabinowitsch fluid model for theoretical investigation of performance properties of many film lubricated bearings in different lubrication regimes [8][9][10][11]. To study the characteristics of bearings lubricated with non-Newtonian lubricants, Rabinowitsch fluid model is one of the best and experimentally verified fluid models [12].…”

Section: Introductionmentioning

confidence: 99%

Analysis of Squeeze Films Between Rough Circular Plates Lubricated with Rabinowitsch Fluids

Singh¹

2019

AJMA

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The present theoretical work investigates the combined impacts of non-Newtonian (pseudoplastic and dilatant) lubricants and surface roughness on the performance of squeeze films lubrication between two rough circular plates. The modified Reynolds equation has been derived on the basis of Christensen's stochastic theory of hydrodynamic lubrication for rough surfaces. The lubricant model adopted for the analysis is Rabinowitsch fluid model -an experimentally verified fluid model for lubricated bearing systems. Two types of one-dimensional roughness patterns (radial and azimuthal) have been considered in the analysis. An asymptotic solution for squeeze film pressure, load carrying capacity and squeeze film time are obtained. The numerical results for dimensionless film pressure, load carrying capacity and film squeezing time have been calculated for various values of fluid and operating parameters. The results for dimensionless film pressure, load capacity and squeezing time of the lubricant film have been discussed with clear graphical presentation for different values of parameters of pseudoplasticity and roughness. It was observed that the radial roughness decreases the film pressure, load capacity and squeezing time of lubricant, while increased values of these properties were observed for azimuthal roughness. It was also observed that the pseudoplastic lubricants decrease the film pressure and load capacity, while the dilatant lubricants increase these properties. Also, the variations in these results are highly significant.

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“…Amongst the externally pressurized bearings, circular hydrostatic thrust bearings are of great importance for industrial and engineering applications due to its wide uses in high speed rotating machines. Researchers have also paid significant attention towards improvement of performance of these bearings under various operating and lubricating conditions [1][2][3][4][5]. Several investigations have been carried out to analyse the dependence of different performance properties of these bearings on rotational inertia, fluid compressibility and temperature variation of the fluid [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

“…To study the lubrication regimes with such lubricants, many non-Newtonian models such as couple stress, power law, micropolar and Casson models are of common interest. Amongst these models, cubic stress (Rabinowitsch) fluid model [1][2][3] is an established model to analyze the non-Newtonian behavior of the fluid. Wada and Hayashi [26] showed that the lubricants blended with viscosity index improver behave like pseudoplastic fluids, which can be analyzed with cubic stress (Rabinowitsch) fluid model given by following relation for one-dimensional fluid flow:…”

Section: Introductionmentioning

confidence: 99%

Effect of Surface Roughness on Steady Performance of Hydrostatic Thrust Bearings: Rabinowitsch Fluid Model

Singh¹

2019

Preprint

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Purpose of the present theoretical investigation is to analyze the effects of surface roughness on the steady-state performance of stepped circular hydrostatic thrust bearings lubricated with non-Newtonian Rabinowitsch type fluids. Results for film pressure and load-carrying capacity have been plotted and analyzed on the basis of numerical results. To take the effects of surface roughness into account, Christensen theory of rough surface has been adopted. The expression for pressure gradient has been derived by means of the energy integral approach. This approach avoids the derivation of Reynolds’ equation. The numerical results for film pressure and load capacity have been obtained using Mathematica. It was observed that in comparison with smooth surfaces, dimensionless film pressure and load capacity is lower for longitudinal roughness and higher for circular roughness patterns with and the variations are significant. Load carrying capacity decreases with the increase of longitudinal roughness and, increases with the increase of circular roughness. Further, the effects of surface roughness and non-Newtonian lubricants are significant for larger values of inertia parameter. Because of the closeness of results to the experimental values, this study will be helpful in the design of circular hydrostatic thrust bearings.

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On the Steady Performance of Annular Hydrostatic Thrust Bearing: Rabinowitsch Fluid Model

Cited by 27 publications

References 13 publications

Application of Rabinowitsch Fluid Model for the Mathematical Analysis of Peristaltic Flow in a Curved Channel

Application of Rabinowitsch Fluid Model for the Mathematical Analysis of Peristaltic Flow in a Curved Channel

Analysis of Squeeze Films Between Rough Circular Plates Lubricated with Rabinowitsch Fluids

Effect of Surface Roughness on Steady Performance of Hydrostatic Thrust Bearings: Rabinowitsch Fluid Model

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