Axial Vibrations of Fluid-Filled Bellows Expansion Joints

Author:

Jakubauskas V. F.1,Weaver D. S.1

Affiliation:

1. Department of Mechanical Engineering, McMaster University, 1280 Main Street West, Hamilton, Ontario, Canada L8S 4L7

Abstract

This paper presents the results of a project undertaken to study the axisymmetric natural vibrations and fluid-added mass of fluid-filled bellows expansion joints. The bellows were modeled using axisymmetric shell finite elements, while the fluid region was discretized using axisymmetric triangular elements. The in-vacuo bellows modes were used as boundary conditions on the potential flow model for the fluid and the added mass determined for each bellows mode. This added mass was then used to determine the in-fluid bellows natural frequencies. Experiments were conducted to verify the theoretical model and agreement was found to be very good. The results were also compared with the frequency predictions of previously developed relatively simple theoretical models.

Publisher

ASME International

Subject

Mechanical Engineering,Mechanics of Materials,Safety, Risk, Reliability and Quality

Reference11 articles.

1. Bass R. L. , and HolsterJ. L., 1972, “Bellows Vibration with Internal Cryogenic Flows,” ASME Journal of Engineering for Industry, Vol. 94, pp. 70–75.

2. EJMA, 1986, The Standards of the Expansion Joint Manufacturers Association, Inc., 5th Edition.

3. Gerlach C. R. , 1969, “Flow-Induced Vibrations for Metal Bellows,” ASME Journal of Engineering for Industry, Vol. 91, pp. 1196–1202.

4. Gidi, A., and Weaver, D. S., 1995, “A Model Study of Flow Induced Bellows Vibration,” Proceedings of 6th International Conference on Flow Induced Vibration, ed., P. Bearman, A. A. Balkema, Rotterdam, pp. 497–503.

5. Irons B. M. , 1965, “Structural Eigenvalue Problems; Elimination of Unwanted Variables,” AIAA Journal, Vol. 3, pp. 961–967.

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