FREE VIBRATION OF A CIRCULAR CYLINDRICAL SHELL FILLED WITH BOUNDED COMPRESSIBLE FLUID

In this paper, the characteristics of vibrational power #ow in an in"nite elastic circular cylindrical shell "lled with #uid are investigated. The FluK gge thin shell theory and Helmholtz equation are employed respectively in analyzing the wave motion in the shell wall and the sound "eld in the #uid

The dynamic characteristics (i.e., natural frequencies and mode shapes) of a partially "lled and/or submerged, horizontal cylindrical shell are examined. In this investigation, it is assumed that the #uid is ideal, and #uid forces are associated with inertial e!ects only: namely, the #uid pressure o

The complete three-dimensional interaction between a spherical shock wave and a submerged #uid-"lled elastic circular cylindrical shell is considered. A hybrid analytical}numerical solving procedure is established. An exact analytical solution in the form of double Fourier series with time-depending

In this paper, analytic formulations and their results are presented to extend the receptance method to a clamped-free cylindrical shell with a plate attached in the shell at an arbitrary axial position. Prior to the analysis of the combined system, the analysis of the free vibration for the shell w

A theoretical study is presented on the natural frequencies of a circular cylindrical shell concentrically or eccentrically submerged in a #uid-"lled rigid cylindrical container. In this analysis, it is assumed that the shell is clamped at both ends, and an annulus between the shell and the rigid co

This paper describes the method to analyze the free vibrations of simply supported cylindrical shells with an interior rectangular plate by using the receptance method. This method is based on the ratio of a de#ection (or slope) response to a harmonic force (or moment) at the joint. After "nding the