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RESEARCH PAPERS

Journal Bearing Impedance Descriptions for Rotordynamic Applications

[+] Author and Article Information
D. Childs

The University of Louisville, Louisville, Ky.

H. Moes, H. van Leeuwen

Technological University Twente, Department of Mechanical Engineering, Enschede, The Netherlands

J. of Lubrication Tech 99(2), 198-210 (Apr 01, 1977) (13 pages) doi:10.1115/1.3453021 History: Received March 03, 1976; Revised June 25, 1976; Online October 20, 2010

Abstract

Bearing impedance vectors are introduced for plain journal bearings which define the bearing reaction force components as a function of the bearing motion. Impedance descriptions are developed directly for the approximate Ocvirk (short) and Sommerfeld (long) bearing solutions. The impedance vector magnitude and the mobility vector magnitude of Booker are shown to be reciprocals. The transformation relationships between mobilities and impedance are derived and used to define impedance vectors for a number of existing mobility vectors including the finite-length mobility vectors developed by Moes. The attractiveness and utility of the impedance-vector formulation for transient simulation work is demonstrated by numerical examples for the Ocvirk “π”, and “2π” bearing impedances and the cavitating finite-length-bearing impedance. The examples presented demonstrate both bearing and squeeze-film damper application. A direct analytic method for deriving a complete set of (analytic) stiffness and damping coefficients from impedance descriptions is developed and demonstrated for the cavitating finite-length-bearing impedances. Analytic expressions are provided for all direct and cross-coupled stiffness and damping coefficients, and compared to previously developed numerical results. These coefficients are used for stability analysis of a rotor, supported in finite-length cavitating bearings. Onset-speed-of-instability results are presented as a function of the L/D ratio for a range of bearing numbers. Damping coefficients are also presented for finite-length squeeze-film dampers.

Copyright © 1977 by ASME
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