Design multi-stopband laminate acoustic metamaterials for structural-acoustic coupled system

•The laminate acoustic metamaterials with multi-stopband for structural-acoustic coupled system are proposed.•Numerical results reveal that two bandgaps are generated around the absorbers’ resonant frequency.•The excellent performance of NVH using laminate acoustic metamaterials has been clearly ver...

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Bibliographic Details
Published inMechanical systems and signal processing Vol. 115; pp. 418 - 433
Main Authors Xiao, X., He, Z.C., Li, Eric, Cheng, A.G.
Format Journal Article
LanguageEnglish
Published Berlin Elsevier Ltd 15.01.2019
Elsevier BV
Subjects
Absorbers
Acoustic coupling
Acoustic noise
Acoustics
Carbon fiber reinforced plastics
Degrees of freedom
Electromagnetics
Fiber reinforced polymers
Finite element analysis
Finite element method
Frequency distribution
Laminate acoustic metamaterials
Local resonance
Metamaterials
Polymers
Resonant frequencies
Stop-band
Structural-acoustic coupled system
Vibration damping
Laminate acoustic metamaterials
Stop-band
Structural-acoustic coupled system
Local resonance
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Summary:•The laminate acoustic metamaterials with multi-stopband for structural-acoustic coupled system are proposed.•Numerical results reveal that two bandgaps are generated around the absorbers’ resonant frequency.•The excellent performance of NVH using laminate acoustic metamaterials has been clearly verified. This paper designs the laminate acoustic metamaterials with multi-stopband for structural-acoustic coupled system. The laminate acoustic metamaterials are composed of carbon-fiber-reinforced polymer (CFRP) and a periodic array of two degrees of freedom (2-DOF) mass-spring-damper subsystems attached to the laminate. According to the dispersion analysis, two stopbands are observed around the absorbers’ resonant frequency. Based on the finite element modeling, the multi-stopband behavior has been confirmed. In addition, the effects of damping of vibration absorbers are discussed in this work. By adding the appropriate damping to the vibration absorbers, the two stop bands can be combined into a wider stopband. Subsequently, the analyses of multi-stopband laminate acoustic metamaterials in the structural–acoustic coupled system are performed. The excellent performance of multi-stopband laminate acoustic metamaterials has been applied to the front panel of vehicle, and the noise of passenger compartment cavity is reduced significantly.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2018.06.004