S
Satish C. Sharma
Researcher at Indian Institute of Technology Roorkee
Publications - 239
Citations - 4327
Satish C. Sharma is an academic researcher from Indian Institute of Technology Roorkee. The author has contributed to research in topics: Bearing (mechanical) & Reynolds equation. The author has an hindex of 30, co-authored 233 publications receiving 3639 citations. Previous affiliations of Satish C. Sharma include Indian Institutes of Technology.
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Elastohydrostatic analysis of orifice compensated multiple hole-entry hybrid journal bearings
TL;DR: In this paper, the effects of bearing shell deformation on the performance characteristics of hole-entry hybrid journal bearing configurations with orifice restrictors have been studied, where the Finite Element Method has been used to solve the Reynolds equation and three-dimensional elasticity equations.
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Combined Influence of Wear and Misalignment of Journal on the Performance Analysis of Three-Lobe Three-Pocket Hybrid Journal Bearing Compensated With Capillary Restrictor
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Influence of surface roughness effects on the performance of non-recessed hybrid journal bearings
TL;DR: In this paper, the effect of surface roughness on the performance of a capillary compensated hole-entry hybrid journal bearing system has been theoretically studied, and the impact of surface irregularity on the bearing performance has been analyzed for transverse, isotropic and longitudinal surface patterns.
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Performance of worn non-recessed hole-entry hybrid journal bearings
TL;DR: In this article, the performance of a worn hole-entry journal bearing was analyzed in terms of maximum fluid-film pressure, minimum fluidfilm thickness, flow rate, frictional torque, rotor dynamic coefficients, stability threshold speed and whirl frequency ratio.
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Influence of micropolar lubricants on the performance of slot-entry hybrid journal bearing
Satish C. Sharma,Nathi Ram +1 more
TL;DR: In this paper, a theoretical study concerning the slot-entry hybrid journal bearing lubricated with micropolar lubricants is presented, where the modified Reynolds equation for micropolastic lubricant is solved using finite element method along with equation of lubricant flow through slot entry restrictors as a constraint together with appropriate boundary conditions.