Pressure distribution for multi-lobe bearings using Fourier analysis

Abstract: During the past decades, researchers have focused a great deal of attention on the lobe bearings because of their superior stability. In this paper, a comprehensive methodology for determining the performances of bearings is developed based on the Fourier analysis. The advantage of this method is no longer to treat each lobe as an individual partial bearing like before, but to take into account the inherent relevance and coupling effects among lobes, etc. This article firstly puts forward universal frameworks … Show more

“…The theoretical data obtained for eccentricity ratio, equilibrium locus, stiffness and damping coefficients for a wide range of Sommerfeld number with load orientation were compared with previously published experimental data. Li et al [10] developed a methodology based on Fourier analysis for multilobe bearing analysis. Roy and Kakoty [17] used a genetic algorithm for location of the groove for optimum performance of three-and four-lobe bearings.…”

Numerical analysis of three lobe hydrodynamic journal bearing using CFD–FSI technique based on response surface evaluation

“…The theoretical data obtained for eccentricity ratio, equilibrium locus, stiffness and damping coefficients for a wide range of Sommerfeld number with load orientation were compared with previously published experimental data. Li et al [10] developed a methodology based on Fourier analysis for multilobe bearing analysis. Roy and Kakoty [17] used a genetic algorithm for location of the groove for optimum performance of three-and four-lobe bearings.…”

Numerical analysis of three lobe hydrodynamic journal bearing using CFD–FSI technique based on response surface evaluation

Implementation of CFD–FSI Technique Coupled with Response Surface Optimization method for Analysis of Three-Lobe Hydrodynamic Journal Bearing

Research on static performance of hydrodynamically lubricated thrust slider bearing based on periodic harmonic