Modeling and calculation of acoustic radiation of underwater stiffened cylindrical shells treated with local damping

Damping materials are widely used and playing an essential role in reducing the vibration and noise of various ships and underwater vehicles. In practical engineering, damping materials are often applied over the structural surface of ships and underwater vehicles. They are generally distributed not...

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Published inMarine structures Vol. 88; p. 103366
Main Authors Zou, Ming-Song, Tang, Huai-Cheng, Liu, Shu-Xiao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2023
Subjects
Acoustic radiation
Cylindrical shell
Fluid-structure interaction
Vibration
Viscoelastic damping
Vibration
Cylindrical shell
Fluid-structure interaction
Acoustic radiation
Viscoelastic damping
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Abstract Damping materials are widely used and playing an essential role in reducing the vibration and noise of various ships and underwater vehicles. In practical engineering, damping materials are often applied over the structural surface of ships and underwater vehicles. They are generally distributed not evenly in the whole area, but locally in some vital regions. The stiffened cylindrical shell is the most representative configuration for the main structure of underwater vehicles. Therefore, research on modeling and calculation of underwater acoustic radiation from stiffened cylindrical shells locally treated with damping has high practical value. This paper introduces a mixed analytical-numerical acoustic-vibration interaction method to achieve efficient calculation of the vibration and acoustic radiation from a locally damped cylindrical shell immersed in water. Two kinds of vibration and noise reduction measures are proposed for the damping treatment of a large-scale stiffened cylindrical shell structure. Calculation and analysis are carried out for both measures. The results can provide reference for developing the technology of reducing vibration and noise from ships and underwater vehicles via damping treatment. •This paper introduces a mixed analytical-numerical acoustic-vibration interaction method. Vibration and acoustic radiation from a locally damped cylindrical shell immersed in water is efficiently calculated.•This method has the advantages of simple modeling and a small computation.•Based on this method, two noise reduction measures for local damping treatment are proposed and analyzed.
AbstractList Damping materials are widely used and playing an essential role in reducing the vibration and noise of various ships and underwater vehicles. In practical engineering, damping materials are often applied over the structural surface of ships and underwater vehicles. They are generally distributed not evenly in the whole area, but locally in some vital regions. The stiffened cylindrical shell is the most representative configuration for the main structure of underwater vehicles. Therefore, research on modeling and calculation of underwater acoustic radiation from stiffened cylindrical shells locally treated with damping has high practical value. This paper introduces a mixed analytical-numerical acoustic-vibration interaction method to achieve efficient calculation of the vibration and acoustic radiation from a locally damped cylindrical shell immersed in water. Two kinds of vibration and noise reduction measures are proposed for the damping treatment of a large-scale stiffened cylindrical shell structure. Calculation and analysis are carried out for both measures. The results can provide reference for developing the technology of reducing vibration and noise from ships and underwater vehicles via damping treatment. •This paper introduces a mixed analytical-numerical acoustic-vibration interaction method. Vibration and acoustic radiation from a locally damped cylindrical shell immersed in water is efficiently calculated.•This method has the advantages of simple modeling and a small computation.•Based on this method, two noise reduction measures for local damping treatment are proposed and analyzed.
ArticleNumber 103366
Author Zou, Ming-Song
Liu, Shu-Xiao
Tang, Huai-Cheng
Author_xml – sequence: 1
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  surname: Zou
  fullname: Zou, Ming-Song
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– sequence: 2
  givenname: Huai-Cheng
  surname: Tang
  fullname: Tang, Huai-Cheng
  organization: China Ship Scientific Research Center, Wuxi, 214082, China
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  givenname: Shu-Xiao
  surname: Liu
  fullname: Liu, Shu-Xiao
  organization: China Ship Scientific Research Center, Wuxi, 214082, China
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Keywords Vibration
Cylindrical shell
Fluid-structure interaction
Acoustic radiation
Viscoelastic damping
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Snippet Damping materials are widely used and playing an essential role in reducing the vibration and noise of various ships and underwater vehicles. In practical...
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SourceType Enrichment Source
Index Database
Publisher
StartPage 103366
SubjectTerms Acoustic radiation
Cylindrical shell
Fluid-structure interaction
Vibration
Viscoelastic damping
Title Modeling and calculation of acoustic radiation of underwater stiffened cylindrical shells treated with local damping
URI https://dx.doi.org/10.1016/j.marstruc.2022.103366
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