LOCAL PETROV-GALERKIN METHOD FOR A THIN PLATE

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LOCAL PETROV-GALERKIN METHOD FOR A THIN PLATE

The meshless local Petrov-Galerkin (MLPG) method for solving the bending problem of the thin plate were presented and discussed. The method used the moving leastsquares approximation to interpolate the solution variables, and employed a local symmetric weak form. The present method was a truly meshless one as it did not need a finite element or boundary element mesh, either for purpose of interpolation of the solution, or for the integration of the energy. All integrals could be easily evaluated over regularly shaped domains ( in general, spheres in three-dimensional problems ) and their boundaries. The essential boundary conditions were enforced by the penalty method. Several numerical examples were presented to illustrate the implementation and performance of the present method. The numerical examples presented show that high accuracy can be achieved for arbitrary grid geometries for clamped and simply-supported edge conditions. No post processing procedure is required to computer the strain and stress, since the original solution from the present method, using the moving least squares approximation, is already smooth enough.

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作 者: 熊渊博 龙述尧  
作者单位:Department of Engineering Mechanics, Hunan University,Changsha 410082, P.R. China 
刊 名:应用数学和力学(英文版)  EI SCI
英文刊名:APPLIED MATHEMATICS AND MECHANICS(ENGLISH EDITION) 
年,卷(期):2004 25(2) 
分类号:O302 
关键词:thin plate   meshless local Petrov-Galerkin method   moving least square approximation   symmetric weak form of equivalent integration for differential equation  
机标关键词:moving least squaresboundary conditionsboundary elementpenalty methodfinite elementhigh accuracythin plate 
基金项目:国家自然科学基金,湖北省自然科学基金 
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