VIBRATION CONTROL SIMULATION OF LAMINATED COMPOSITE PLATES WITH INTEGRATED PIEZOELECTRICS

Vibration of a laminated composite plate is controlled by passive and active control methods. Stiffness change in composite structures by changes in laminate orientation is used as an example of a passive control method, negative velocity feedback control with the piezoelectric sensor/actuator is us

Mechanics for the analysis of damping in composite plates with multiple resistively shunted piezoelectric layers are developed. The mixed ®eld piezoelectric laminate theory is extended to include distributed passive electric circuitry embedded or attached to piezoelectric layers. The equations of mo

An analysis for the three-dimensional solutions of piezoelectric laminated plates has been conducted by several researchers. For example, Ray and Rao [1] and Ray and Samanta [2] have studied the exact static analysis of piezoelectric plates under cylindrical bending and finite dimension piezoelectri

A finite element model based on third order laminate theory is developed for the active position control and vibration control of composite beams with distributed peizoelectric sensors and actuators. The direct peizoelectric equation is used to calculate the total charge created by the strains on th

An integrated approach is given to determine the optimal levels of hybridization and feedback control force for symmetric, cross-ply laminates. The optimization objectives are the maximization of the biaxial buckling load and the minimization of the vibrational energy subject to constraints on the t