Free Vibration Analysis of a Basic Structural/Gas/Liquid Interacting System

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Periodical:

Materials Science Forum (Volumes 440-441)

Edited by:

M.P. Cartmell

Pages:

381-388

Citation:

D. G. Gorman et al., "Free Vibration Analysis of a Basic Structural/Gas/Liquid Interacting System", Materials Science Forum, Vols. 440-441, pp. 381-388, 2003

Online since:

November 2003

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$38.00

[1] Dowell, E.H., Gorman, G.F. and Smith, D.A.: Acoustoelasticity: General theory, acoustic natural modes and forced response to sinusoidal excitation, including comparisons with experiment. J. Sound Vib., 1977, 52(4), 519-542.

DOI: https://doi.org/10.1016/0022-460x(77)90368-6

[2] Fahy, F.: Sound and Structural Vibration. Academic Press Limited, London, (1993).

[3] Leissa, A.W.: Vibration of Plates. NASA SP-160, Washington, (1969).

[4] McLachlan, N.W.: Bessel Functions for Engineers. Oxford Engineering Science Series, 1948 (Oxford University Press, London). Figure 1 Description of system 1x 1l f32=0. 4.

0. 5.

[1] 1. 5.

[2] 0 1 2 f12 Rc a f32=0. 8.

[1] [2] [3] [4] 0 1 2 f12 Rc b f32=1. 2.

[1] [2] [3] [4] [5] 0 1 2 f12 Rc c f32=1. 6.

[2] [4] [6] [8] 0 1 2 f12 Rc d Figure 2 Plot of Rc vs f12 when disc is relatively tuned to gas only acoustic cavity.

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