LIU Lijun

ZHANG Zhiyi

HUA Hongxing
State Key Laboratory of Vibration,
Shock and Noise,
Shanghai Jiaotong University,
Shanghai 200240, China

ZHANG Yi
704 Research Department,
China Ship and Heavy Industry
Group Corporation,
Shanghai 200030, China

Abstract: Active constrained layer damping (ACLD) combines the simplicity and reliability of passive damping with the light weight and high efficiency of active actuators to obtain high damping over a wide frequency band. A fluid-filled prismatic shell is set up to investigate the validity and efficiency of ACLD treatments in the case of fluid-structure interaction. By using state subspace identification method, modal parameters of the ACLD system are identified and a state space model is established subsequently for the design of active control laws. Experiments are conducted to the fluid-filled prismatic shell subjected to random and impulse excitation, respectively. For comparison, the shell model without fluid interaction is experimented as well. Experimental results have shown that the ACLD treatments can suppress vibration of the fluid-free and fluid-filled prismatic shell effectively. Under the same control gain, vibration attenuation is almost the same in both cases.

Key words: Active constrained layer damping Subspace identification method Vibration control