Record number :
1209294
Title of article :
On error estimation and adaptive refinement for element free Galerkin method: Part II: adaptive refinement
Author/Authors :
C.K. Lee، نويسنده , , Ce Zhou، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2004
Pages :
15
From page :
429
To page :
443
Abstract :
In this paper, an adaptive refinement procedure using the element free Galerkin method (EFGM) for the solution of 2D linear elastostatic problems is suggested. Based on the numerical experiments done in Part I of the current study, in the proposed adaptive refinement scheme, the Zienkiewicz and Zhu (Z–Z) error estimator using the T-Belytschko (TB) stress recovery scheme is employed for the a posteriori error estimation of EFGM solution. By considering the a priori convergence rate of the EFGM solution and the estimated error norm, an adaptive refinement strategy for the determination of optimal node spacing is proposed. A simple point mesh generation scheme using pre-defined templates to generate new nodes inside the integration cells for adaptive refinement is also developed. The performance of the suggested refinement procedure is tested by using it to solve several benchmark problems. Numerical results obtained indicate that the suggested procedure can lead to the generation of nearly optimal meshes and the effects of singular points inside the problem domain are largely eliminated. The optimal convergence rate of the EFGM analysis is restored and the effectivity indices of the Z–Z error estimator are converging towards the ideal value of unity as the meshes are refined.
Keywords :
stress recovery , Adaptive refinement , A priori and a posteriori error estimation , Point mesh generation , element free Galerkin method
Journal title :
Computers and Structures
Serial Year :
2004
Link To Document :
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