An improved local boundary integral equation method implemented by the transformed MLS approximation with the delta property

• Published in: Engineering analysis with boundary elements Vol. 101; pp. 48 - 55
• Main Author: Guo, X.F.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.04.2019
• Subjects: Boundary conditions; Delta property; Improved local boundary integral equation; Potential problem; Transformed MLS approximation; Delta property; Boundary conditions; Potential problem; Transformed MLS approximation; Improved local boundary integral equation
• ISSN: 0955-7997; 1873-197X
• DOI: 10.1016/j.enganabound.2018.12.011

The meshless local boundary integral equation (LBIE) method is a promising method for solving problems of elasticity with nonhomogeneous material properties. However, the shape functions of the LBIE method obtained by the moving least-squares (MLS) approximation, generally, do not satisfy the Kronecker delta property. To impose boundary conditions, numerical integrations of LBIE method are carried out under consideration of boundary conditions and the fictitious nodal values would be solved out. In this paper, the transformed MLS shape functions can be obtained, satisfying the Kronecker delta property and requiring no singular weight function. And then the potential and flux in 2D potential problems would be regarded as independent variables each other. The numerical integrations of LBIEs can be processed without regard to boundary conditions and the coefficient matrix of LBIE method would be irrelated to boundary conditions. Finally boundary conditions would be directly imposed and the unknown nodal potentials or the unknown fluxes on the boundary nodes would be solved out. Three numerical examples are computed to verify this feasibility. The coincidence of the numerical results obtained by the proposed method with the traditional LBIE method shows the feasibility of the proposed method.