Journal of Theoretical and Applied Mechanics

Journal of Theoretical
and Applied Mechanics
37, 2, pp. 241-254, Warsaw 1999

The paper concerns stabilization of an elastic beam subjected to a time-dependent axial forcing. The direct Liapunov method is proposed to establish criteria for the almost sure stochastic stability of the unperturbed (trivial) solution of the structure with closed-loop control. We construct the Liapunov functional as a sum of the modified kinetic energy and elastic energy of the structure. An influence of damping in the finite bonding layer is described by the effective retardation time of the Voigt-Kelvin model. The distributed control is realized by the piezoelectric sensor and actuator, with changing widths, glued to the upper and lower beam surfaces, respectively. The paper is devoted to the stability analysis of the closed-loop system described by the stochastic partial differential equation without a finite-dimensional approach. The effective stabilization conditions implying the almost sure stability are the main results. A fluctuating axial force is modelled by the physically realizable ergodic process. The rate velocity feedback is applied to stabilize the panel parametric vibrations. Calculations are performed for the Gaussian process with given mean value and variance as well as for the harmonic process with an amplitude A.