Open AccessPerformance of Normal Geometrical Hydrodynamic Inclined Fixed Pad Thrust Slider Bearing with the Interfacial Slippage Occurring on the Stationary Surface in the Inlet Zone and on the Whole Moving Surface
Author(s) -
Yansun Zhou,
Yongbin Zhang,
Xinyu Jiang,
Mingjun Pang
Publication year - 2020
Publication title -
journal of modern mechanical engineering and technology
Language(s) - English
Resource type - Journals
ISSN - 2409-9848
DOI - 10.31875/2409-9848.2020.07.4
Subject(s) - slippage , slider , mechanics , materials science , bearing (navigation) , thrust bearing , thrust , inlet , surface (topology) , limiting , geometry , composite material , physics , mechanical engineering , engineering , thermodynamics , mathematics , astronomy
An anaysis is presented for investigating the performance of the hydrodynamic inclined fixed pad thrust slider bearing with a normal geometry where the interfacial slippage occurs on the stationary surface in the inlet zone and on the whole moving surface, based on the limiting interfacial shear strength model. The calculation results show that compared with the classical mode of the bearing (without any interfacial slippage), this bearing has a significantly higher load-carrying capacity but a much lower friction coefficient in the same operating condition. The study shows the considerable improvement of the bearing performance by the introduced interfacial slippage.