Parametric study of multiple-layer damping treatments on beams

on the Enhanced Active Constrained Layer (EACL) damping treatments and provide more comprehensive results that can be better generalized. For given strain distributions in the host structure and utilizing a self-sensing control law, closed form solutions to the longitudinal motion of the active cove

The dynamics of a beam treated with an unconstrained damping layer are investigated. The damping layer is applied either uniformly or in a distributed fashion. The effect of the distributed damping layer treatment on the dynamic displacement and the stresses are studied. The beam is subjected to a p

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 modal frequencies and loss factors of a simply supported beam with an enhanced active constrained layer (EACL) damping treatment are derived by the extended Hamilton principle and Rayleigh-Ritz method while open-and closed-loop control (displacement and velocity feedback) systems are considered.