VIBRATION POWER FLOW IN A FLUID-FILLED CYLINDRICAL SHELL

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

This paper presents an analytical method for evaluating the linear free vibration of a circular cylindrical shell filled with bounded compressible fluid. The analytical method was developed by means of the finite Fourier series expansion method. The motion of compressible fluid coupled with the shel

A #uid-"lled cylindrical shell comprising a wall joint is investigated by using the concept of vibrational power #ow. The power #ow in the contained #uid and in the shell wall of this #uid-"lled elastic cylindrical shell is studied. The transmission loss of vibrational power #ow through the wall joi

In this paper, the input power ¯ow from a cosine harmonic circumferential line force into an in®nite cylindrical ¯uid-®lled shell with periodic stieners is studied. The stieners are idealized as line attachments capable of exerting line forces which relate to the stieners and the shell. The motion o