Buy article PDF
The purchased file will be sent to you
via email after the payment is completed.
US$ 35
Smart Structures and Systems Volume 15, Number 5, May 2015 , pages 1177-1202 DOI: https://doi.org/10.12989/sss.2015.15.5.1177 |
|
|
Optimal control and design of composite laminated piezoelectric plates |
||
ALhadi E. ALamir
|
||
Abstract | ||
The present paper is concerned with the optimal control and/or design of symmetric and antisymmetric composite laminate with two piezoelectric layers bonded to the opposite surfaces of the laminate, and placed symmetrically with respect to the middle plane. For the optimal control problem, Liapunov-Bellman theory is used to minimize the dynamic response of the laminate. The dynamic response of the laminate comprises a weight sum of the control objective (the total vibrational energy) and a penalty functional including the control force. Simultaneously with the active control, thicknesses and the orientation angles of layers are taken as design variables to achieve optimum design. The formulation is based on various plate theories for various boundary conditions. Explicit solutions for the control function and controlled deflections are obtained in forms of double series. Numerical results are given to demonstrate the effectiveness of the proposed control and design mechanism, and to investigate the effects of various laminate parameters on the control and design process. | ||
Key Words | ||
piezoelectric; actuators; minimizing the dynamic response; optimal design; composite laminated plates; plate theories | ||
Address | ||
ALhadi E. ALamir: Department of Mathematics, Najran university, PO Box 1988, Najran, Kingdom of Saudi Arabia | ||