VIBRATION CONTROL OF LAMINATED COMPOSITE PLATE WITH PIEZOELECTRIC SENSOR ACTUATOR - ACTIVE AND PASSIVE CONTROL METHODS

Vibration of a laminated composite plate is controlled by passive and active control methods. Stiffness change in composite structures by ch anges in laminate orientation is used as an example of a passive contr ol method, negative velocity feedback control with the piezoelectric s ensor/actuator is used as an example of an active control method. The effect of passive and active controls are investigated by changing the layer angles of a laminated composite plate or the location and numbe r of the sensor/actuator pairs. Classical lamination theory with the i nduced strain actuation and Hamilton's principle are used to formulate the equations of motion of the system. The system equations are discr etised by the finite element method. Using numerical simulation, a des ign strategy for a laminated composite plate with piezoelectric sensor /actuator is suggested.