Litcius/Paper detail

Vibration Control for Laminated Composite Spherical-Cylindrical-Combined Shells: Theory and Experiment

Jian Zang, Rong-Yao Zhang, Yang Yang, Zhen Zhang, Xu-Yuan Song, Yewei Zhang, Li‐Qun Chen

2024AIAA Journal18 citationsDOI

Abstract

Considering the structural damage and instability due to extensive vibrations, the present investigation focuses on the dynamic characteristics analysis and vibration control for aerospace structures such as rocket stages and aircraft cowling, modeled as laminated composite spherical-cylindrical-combined shells (SCCSs). The theoretical model of the SCCSs is established by a series of artificial connection and boundary springs. The proposed method’s validity is confirmed through finite element analysis and experimental validation. Nickel-titanium-steel wire ropes (NiTi-STs) are then introduced as a passive vibration control method for the SCCSs. Both circumferential and axial NiTi-ST laying schemes demonstrate good vibration control capabilities on the SCCSs. For similar lengths of NiTi-STs, the vibration control effect of circumferential laying schemes is superior to that of the axial one. Furthermore, the vibration control effect of the circumferential schemes is found to be dependent on the number and positioning of NiTi-STs. The influence of the NiTi-ST structural parameters on the vibration control performance is also analyzed; adjusting the structural parameters appropriately is helpful to improve the vibration reduction effect.

Topics & Concepts

Composite numberVibrationMaterials scienceStructural engineeringSpherical shellMechanicsShell (structure)AcousticsPhysicsComposite materialEngineeringComposite Structure Analysis and OptimizationStructural Analysis and OptimizationAeroelasticity and Vibration Control