A 2.5D TRACTION BOUNDARY ELEMENT METHOD FORMULATION APPLIED TO THE STUDY OF WAVE PROPAGATION IN A FLUID LAYER HOSTING A THIN RIGID BODY
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Publication:4907777
DOI10.1142/S0218396X08003567zbMath1257.76066OpenAlexW2010647007MaRDI QIDQ4907777
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Publication date: 22 February 2013
Published in: Journal of Computational Acoustics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0218396x08003567
Boundary element methods applied to problems in fluid mechanics (76M15) Hydro- and aero-acoustics (76Q05)
Related Items (5)
Coupling of boundary element and wave based methods for the efficient solution of complex multiple scattering problems ⋮ 2.5D coupled BEM-FEM used to model fluid and solid scattering wave ⋮ Coupling the BEM/TBEM and the MFS for the numerical simulation of acoustic wave propagation ⋮ The 2D Dirichlet problem for the propagative Helmholtz equation in an exterior domain with cracks and singularities at the edges ⋮ 2.5D BEM modeling of underwater sound scattering in the presence of a slippage interface separating two flat layered regions
Cites Work
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- Wave scattering by cracks in inhomogeneous continua using BIEM
- Boundary element method in dynamic analysis of structures with cracks
- Traction boundary elements for cracks in anisotropic solids
- Modified Green's functions for shallow water acoustic wave propagation
- ACOUSTIC SCATTERING FROM A 2-D FLUID WAVEGUIDE WITH AN IRREGULAR FLOOR VIA THE BEM
- A DUAL BOUNDARY ELEMENT FORMULATION FOR SOUND PROPAGATION AROUND BARRIERS OVER AN IMPEDANCE PLANE
- On calculation of sound fields around three dimensional objects by integral equation methods
- Tangential derivative of singular boundary integrals with respect to the position of collocation points
- Nonsingular BEM for fracture modeling
- Flaw detection in sandwich plates based on time-harmonic response using genetic algorithm
- Green's function for two-and-a-half dimensional elastodynamic problems in a half-space
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