3D elastic wave propagation modelling in the presence of 2D fluid-filled thin inclusions
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Publication:1958151
DOI10.1016/j.enganabound.2005.08.014zbMath1195.74260OpenAlexW1979207308MaRDI QIDQ1958151
Paulo Amado Mendes, A. J. B. Tadeu, Julieta M. P. António
Publication date: 28 September 2010
Published in: Engineering Analysis with Boundary Elements (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/10316/3977
wave propagationboundary element methodelastic scatteringtraction boundary element method2.5D problemfluid-filled thin inclusions
Boundary element methods applied to problems in solid mechanics (74S15) Wave scattering in solid mechanics (74J20)
Related Items (7)
Wave propagation modeling in cylindrical human long wet bones with cavity ⋮ Boundary element method for 2D solids with fluid-filled pores ⋮ Coupling the BEM/TBEM and the MFS for the numerical simulation of acoustic wave propagation ⋮ Wave propagation in cracked elastic slabs and half-space domains-TBEM and MFS approaches ⋮ Numerical simulation of borehole acoustic logging in the frequency and time domains with \(hp\)-adaptive finite elements ⋮ Coupling BEM/TBEM and MFS for the simulation of transient conduction heat transfer ⋮ 3D acoustic wave simulation using BEM formulations: closed form integration of singular and hypersingular integrals
Cites Work
- Transient elastodynamic three-dimensional problems in cracked bodies
- The use of simple solutions in the regularization of hypersingular boundary integral equations
- Closed-form integration of singular terms for constant, linear and quadratic boundary elements. I: SH wave propagation
- Closed-form integration of singular terms for constant, linear and quadratic boundary elements. II: SV-P wave propagation
- Use of ‘simple solutions’ for boundary integral methods in elasticity and fracture analysis
- Singular boundary elements for the analysis of cracks in plane strain
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