Virtual boundary element-equivalent collocation method for the plane magnetoelectroelastic solids

Citations Over Time

Abstract

This paper presents a virtual boundary element-equivalent collocation method (VBEM) for the plane magnetoelectroelastic solids, which is based on the fundamental solutions of the plane magnetoelectroelastic solids and the basic idea of the virtual boundary element method for elasticity. Besides all the advantages of the conventional boundary element method (BEM) over domain discretization methods, this method avoids the computation of singular integral on the boundary by introducing the virtual boundary. In the end, several numerical examples are performed to demonstrate the performance of this method, and the results show that they agree well with the exact solutions. So the method is one of the efficient numerical methods used to analyze megnatoelectroelastic solids.

Related Papers

• → A Simple, Accurate and Semi-Analytical Meshless Method for Solving Laplace and Helmholtz Equations in Complex Two-Dimensional Geometries(2022)4 cited
• → The method of fundamental solutions for solving free boundary saturated seepage problem(2010)27 cited
• Computation of potential flow around three-dimensional obstacles by a scaled boundary finite-element method(2006)
• The coupling method of boundary element and meshless method(2003)
• A new method to treat essential boundary conditions for the meshless method(2007)