Design and Performance Analysis of Dual Membrane Restrictor for Hydrostatic Bearing

In this paper, a dual membrane restrictor design was proposed to improve the stiffness performance of the compensated hydrostatic bearing. Theoretical models for the proposed dual membrane restrictors were derived. Analysis of these models showed that a high stiffness region could be achieved at the desired loading region through the proper selection of the design parameters. A series of simulations were conducted to study the variations in the design parameters on the stiffness and clearance variations. It was found that the dimensionless membrane stiffness in the inlet restrictor, Kmi*, was the most dominant parameter for the performance of the compensated bearing system. The main advantages of the proposed dual membrane restrictor are the increase in flexibility by providing high stiffness at the desired loading region; and improving the stiffness performance of the bearing system especially at the desired loading region.

[1]  Ming-Fei Chen,et al.  Study of membrane restrictors in hydrostatic bearing , 2018, Advances in Mechanical Engineering.

[2]  Shih-Chieh Lin,et al.  A Simulation Study for the Design of Membrane Restrictor in an Opposed-Pad Hydrostatic Bearing to Achieve High Static Stiffness , 2018, Lubricants.

[3]  Changhou Lu,et al.  An accurate method for determination of the performance characteristics of membrane-type restrictors , 2018, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology.

[4]  Shih-Chieh Lin,et al.  Parameters design of a membrane-type restrictor with single-pad hydrostatic bearing to achieve high static stiffness , 2017 .

[5]  Shigeka Yoshimoto,et al.  Static characteristics of a water-lubricated hydrostatic thrust bearing using a membrane restrictor , 2014 .

[6]  Cheng-Hsien Chen,et al.  Parameter identification for single‐action membrane‐type restrictors of hydrostatic bearings , 2012 .

[7]  Vikas M. Phalle,et al.  Influence of wear on the performance of a 2-lobe multirecess hybrid journal bearing system compensated with membrane restrictor , 2011 .

[8]  Yuan Kang,et al.  Design for static stiffness of hydrostatic bearings: single‐action variable compensations , 2011 .

[9]  Yeon-Pun Chang,et al.  Modified predictions of restriction coefficient and flow resistance for membrane-type restrictors in hydrostatic bearing by using regression , 2007 .

[10]  C. Cusano Ms,et al.  Characteristics of Externally Pressurized Journal Bearings with Membrane-Type Variable-Flow Restrictors as Compensating Elements , 1974 .

[11]  Markku Sami Antero Kotilainen,et al.  Design and manufacturing of modular self-compensating hydrostatic journal bearings , 2000 .