Design of passive vibration controls for internally damped beams by modal control techniques

This paper addresses the controllability aspect in vibration control of beam structures with piezoelectric actuators. First, we model the beam structure with piezoelectric actuators and establish the corresponding state-coupled equation. Based on the state equation, we propose a controllability inde

A model is proposed that describes the response of a smart hybrid bearing pair coupled to a flexible axially moving beam. Exact, explicit, closed form determination of the bearing force generated is derived. The maximum axial velocity of the beam for stable response of the coupled system, and the da

Vibration control of the composite beam integrated with curved piezoelectric "bers is investigated. Sensory and actuating equations of the curved piezoelectric "bers embedded in a composite slender beam are derived, and expressed in terms of line integrals. In addition, a new method for designing "b

The primary resonance of a cantilever beam under state feedback control with a time delay is investigated. By means of the asymptotic perturbation method, two slow-flow equations on the amplitude and phase of the oscillator are obtained and external excitation-response and frequency-response curves

An active vibration control system is proposed for suppressing the small amplitude random vibrations in flexible beams. Intelligent materials such as the piezoelectric ceramic PZT are used as the actuator and the piezoelectric plastic PVDF is used as the sensor. The characteristics of the physical s