VIBRATION CONTROL OF SHALLOW SHELL STRUCTURES USING A SHELL-TYPE DYNAMIC VIBRATION ABSORBER

In this paper, the non-linear vibration and dynamic instability of thin shallow spherical and conical shells subjected to periodic transverse and in-plane loads are investigated. The Marguerre type dynamic equations used for the analysis of shallow shells, when treated by the Galerkin method, will r

RThe large displacements mentioned here and elsewhere need only be of the order of the shell thickness for the non-linear e!ects to be signi"cant. That is, they do not need to be truly large (many times the shell thickness).

Vibrations of machines and structures vanish perfectly at a certain frequency when they have a vibration absorber without damping. But if forced frequencies vary from the anti-resonance frequency, their vibration amplitudes increase signi"cantly. Then the absorber without damping cannot be applied t

The control system of an active dynamic vibration absorber has been designed using the theory of output regulation with internal stability. The aim of the control system is to reduce the vibration of the controlled object equipped with the absorber to zero at a specified frequency and to a non-reson