Vibration Control Of A Flexible Beam Using A Rotational Internal Resonance Controller, Part I: Theoretical Development And Analysis

This paper demonstrates the effectiveness of a unique vibration control technique which utilizes a non-linear vibration phenomenon at \(2: 1\) internal resonance to attenuate the vibrations of a cantilever beam. The controller is attached to the tip of the beam and consists of a second link and a DC

A mathematical model which describes the nonsteady state heat and mass transfer operations durmg the freeze drymg process IS presented With the use of tins model the problem of operating a freeze dryer to obtam a fixed final mmsture content m mmlmum trme IS formulated as an optImaI control problem R

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

Dynamic analysis and vibration control of a flexible slider-crank mechanism driven by a permanent magnet (PM) synchronous servo motor are studied in this paper. Geometric constraint at the end of a flexible connecting rod is derived and introduced into Hamilton's principle to formulate the governing