Xianyun Qin scite author profile

SUMMARYThis work presents a new implementation of the boundary node method (BNM) for numerical solution of Laplace's equation. By coupling the boundary integral equations and the moving least-squares (MLS) approximation, the BNM is a boundary-type meshless method. However, it still uses the standard elements for boundary integration and approximation of the geometry, thus loses the advantages of the meshless methods. In our implementation, here called the boundary face method, the boundary integration is performed on boundary faces, which are represented in parametric form exactly as the boundary representation data structure in solid modeling. The integrand quantities, such as the coordinates of Gauss integration points, Jacobian and out normal are calculated directly from the faces rather than from elements. In order to deal with thin structures, a mixed variable interpolation scheme of 1-D MLS and Lagrange Polynomial for long and narrow faces. An adaptive integration scheme for nearly singular integrals has been developed. Numerical examples show that our implementation can provide much more accurate results than the BNM, and keep reasonable accuracy in some extreme cases, such as very irregular distribution of nodes and thin shells.

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A general algorithm for the numerical evaluation of nearly singular integrals on 3D boundary element

Qin

Zhang

Xie

et al. 2011

Journal of Computational and Applied Mathematics

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An element implementation of the boundary face method for 3D potential problems

Qin

Zhang

et al. 2010

Engineering Analysis with Boundary Elements

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New variable transformations for evaluating nearly singular integrals in 2D boundary element method

Xie

Zhang

Qin

et al. 2011

Engineering Analysis with Boundary Elements

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Steady-state heat conduction analysis of solids with small open-ended tubular holes by BFM

Qin

Zhang

Liu³

et al. 2012

International Journal of Heat and Mass Transfer

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Xianyun Qin

A boundary face method for potential problems in three dimensions

A general algorithm for the numerical evaluation of nearly singular integrals on 3D boundary element

An element implementation of the boundary face method for 3D potential problems

New variable transformations for evaluating nearly singular integrals in 2D boundary element method

Steady-state heat conduction analysis of solids with small open-ended tubular holes by BFM

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