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Design of cylindrical metashells with piezoelectric materials and digital circuits for multi-modal vibration control

Danjie Yin, Kaijun Yi, Zhiyuan Liu, Anfu Zhang, Rui Zhu

2022Frontiers in Physics15 citationsDOIOpen Access PDF

Abstract

Thin-walled cylindrical shells are widely used in industries, such as the main parts of aircrafts, rockets, and submarines. Except for meeting the load-bearing capacities, such structures must also have good vibration and acoustic performances. However, it is still a challenge to control the multi-modal vibration of cylindrical shells at low frequencies. This study explores the cutting-edge local resonant piezoelectric metamaterials to control the low-frequency vibration of cylindrical shells. A novel cylindrical meta-shell with piezoelectric materials and digital circuits was proposed, and a multi-resonance transfer function is implemented in each digital circuit. A method to optimizing the parameters in the transfer function for the purpose of vibration reduction is developed. The vibrational characteristics of the meta-shell are numerically analyzed using the finite element method. Numerical results clearly demonstrate that by delicately designing the parameters in the transfer function, the meta-shell can reduce the peak amplitudes of the first five modes by 30 dB or more. Therefore, the proposed piezoelectric cylindrical meta-shell may open new opportunities in vibration mitigation of transport vehicles and underwater equipment.

Topics & Concepts

VibrationShell (structure)Vibration controlAcousticsPiezoelectricityModalTransfer functionActive vibration controlFinite element methodModal analysisReduction (mathematics)Structural engineeringMaterials scienceEngineeringMechanical engineeringPhysicsElectrical engineeringGeometryMathematicsPolymer chemistryAcoustic Wave Phenomena ResearchVibration and Dynamic AnalysisVibration Control and Rheological Fluids
Design of cylindrical metashells with piezoelectric materials and digital circuits for multi-modal vibration control | Litcius