- 作者:Kallivokas ; Loukas F. ; Juneja ; Tanjeet ; Bielak ; Jacobo
- 关键词:Material interfaces ; Multi-domains ; Boundary elements ; Symmetric Galerkin BEM ; Integral equations ; Hypersingular kernels ; Corner treatment
- 刊名:Computer Methods in Applied Mechanics and Engineering
- 出版年:2005
- 出版时间:September 2, 2005
- 年:2005
- 卷:194
- 期:34-35
- 页码:3607-3636
- 全文大小:934 K
The approach hinges on the explicit imposition of the normal derivative of the classical integral representation of the interior solution on each subdomain via Lagrange multipliers in the augmented Lagrangian of the system. We use Maue-type identities to resolve the hypersingular kernels, leading to a scheme that requires only standard single- and double-layer evaluations. In addition, the usual difficulty with multi-valued normals at subdomain corners is treated here within the same variational framework, by incorporating into the variational formulation the constraint equation between the limiting normal derivatives at either side of the corner. The resulting scheme remains fully symmetric.
The numerical implementation avoids the explicit presence of Neumann-type unknowns on the boundaries, through condensation at the subdomain level. In all integral evaluations, three- or four-point Gauss quadrature rules are sufficient for accurate results. We describe the theory and present illustrative examples for thermal and acoustic problems governed by Laplace and Helmholtz equations, respectively. This technique, however, can be applied without essential modification to more general problems.