"A Three-Dimensional Navier-Stokes-Based Numerical Model for Squeeze Film Dampers. Part 2—Effects of Gaseous Cavitation on the Behavior of the Squeeze Film Damper" by Changhu Xing

Article

A Three-Dimensional Navier-Stokes-Based Numerical Model for Squeeze Film Dampers. Part 2—Effects of Gaseous Cavitation on the Behavior of the Squeeze Film Damper

Tribology Transactions

Changhu Xing, University of Akron Main Campus
Minel J. Braun, University of Akron Main Campus
Hongmin Li, University of Akron Main Campus

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Document Type

Article

Publication Date

10-1-2009

Disciplines

Engineering and
Mechanical Engineering

Abstract

The damping coefficients for a squeeze film damper (SFD) were determined and discussed in Part 1 using the full Navier-Stokes equations (NSE) coupled with a homogeneous cavitation model. In this continuation, Part 2, article these coefficients are introduced into the governing equations of motion to determine the trajectory of the rotor and its stability. The nonlinear response of the damper predicted by the NSE model is compared to results obtained from the application of the Reynolds equation. The influences of gas mass concentration as well as that of the amount of imbalance on transmissibility and eccentricity of the damper are also investigated.

Citation Information

Changhu Xing, Minel J. Braun and Hongmin Li. "A Three-Dimensional Navier-Stokes-Based Numerical Model for Squeeze Film Dampers. Part 2—Effects of Gaseous Cavitation on the Behavior of the Squeeze Film Damper" Tribology Transactions Vol. 52 Iss. 5 (2009) p. 695 - 705
Available at: http://works.bepress.com/minel_braun/10/