Intelligent constrained-layer (ICL) damping treatments are applied to control bending vibration of composite and isotropic plates. The treatment consists of a viscoelastic shear layer sandwiched between a piezoelectric constraining cover sheet and the structure to be damped. According to the measured vibration response, a feedback controller regulates axial deformation of the piezoelectric layer to perform active vibration control. The equation of motion and boundary conditions governing the bending vibration with bending-stretching coupling stiffness are derived. Two examples are illustrated in this paper. The first example considers an infinite composite plate consisting of a +or-45 degrees angle ply laminate subjected to plane harmonic wave excitations. The second example considers bending-vibration control of a simply-supported, rectangular, isotropic, classical plate.
[1]
Yi‐Yuan Yu.
Damping of Flexural Vibrations of Sandwich Plates
,
1962
.
[2]
J. R. McGraw,et al.
Vibratory Bending of Damped Laminated Plates
,
1969
.
[3]
B. E. Douglas,et al.
Transverse Compressional Damping in the Vibratory Response of Elastic-Viscoelastic-Elastic Beams.
,
1978
.
[4]
Kevin Napolitano,et al.
Active constrained layer viscoelastic damping
,
1993
.
[5]
Hany Ghoneim.
Electromechanical surface damping using constrained layer and shunted piezoelectric
,
1993,
Smart Structures.
[6]
I. Y. Shen,et al.
Hybrid Damping Through Intelligent Constrained Layer Treatments
,
1994
.