Vibration and damping analysis of cylindrical shells with a constrained damping layer

The e!ectiveness of the active constrained layer damping (ACLD) treatments in enhancing the damping characteristics of thin cylindrical shells is presented. A finite element model (FEM) is developed to describe the dynamic interaction between the shells and the ACLD treatments. Experiments are perfo

System loss factors corresponding to various shell modes have been evaluated by using a complex modulus approach. The damped free vibrations of composite cylindrical shells have been analyzed by using a first order shear deformation theory, in which one assumes a uniform distribution of the transver

A new analytical, energy based approach is described that predicts the harmonic vibration response of a damped beam with multiple viscoelastic patches. Each damping patch consists of a metallic constraining layer and an adhesive viscoelastic layer with spectrally-varying material properties. Since t

The harmonic response of cylindrical shells with constrained damping treatment is studied by the finite element method. Two finite elements based on different kinematic hypothesis are presented and made use of in the study. Studies are carried out and results presented for shells with different core