Frontiers in Physics (Nov 2022)

Sensitivity analysis of structural-acoustic fully-coupled system using isogeometric boundary element method

  • Xiuyun Chen,
  • Xiuyun Chen,
  • Yanming Xu,
  • Yanming Xu,
  • Juan Zhao,
  • Juan Zhao,
  • Ruhui Cheng,
  • Ruhui Cheng,
  • Wenqiang Ma

DOI
https://doi.org/10.3389/fphy.2022.1082824
Journal volume & issue
Vol. 10

Abstract

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In many engineering challenges, the whole interaction between the structural domain and the acoustic domain must be taken into account, particularly for the acoustic analysis of thin structures submerged in water. The fast multipole boundary element approach is used in this work to simulate the external acoustic domain and the finite element method is used to describe the structural components. To improve coupling analysis accuracy, discontinuous higher-order boundary components are created for the acoustic domain. The isogeometric boundary element method (IGABEM) discretizes unknown physical fields by using CAD spline functions as basis functions. IGABEM is inherently compatible with CAD and can perform numerical analysis on CAD models without having to go through the time-consuming meshing process required by traditional FEM/BEM and volume parameterization in isogeometric finite element methods. IGABEM’s power in tackling infinite domain issues and combining CAD and numerical analysis is fully used when it is applied to structural form optimization of three-dimensional external acoustic problems. The structural-acoustic design and optimization procedures benefit from the use of structural-acoustic design sensitivity analysis because it may provide information on how design factors affect radiated acoustic performance. This paper provides adjoint operator-based equations for sound power sensitivity on structural surfaces and direct differentiation-based equations for sound power sensitivity on arbitrary closed surfaces surrounding the radiator. Numerical illustrations are provided to show the precision and viability of the suggested approach.

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