Yulong Shao scite author profile

SUMMARYAn element-free Galerkin (EFG) method with linear, quadratic and cubic approximations, which can exactly, in a numerical sense, pass the corresponding patch tests is proposed and is named as consistent EFG (CEFG) method. The development of this method is based on the Hu-Washizu three-field variational principle. Numerical integration schemes with corrected nodal derivatives at quadrature points are proposed according to the satisfaction of the orthogonality condition between stress and strain difference. Thus, the method is variationally consistent. The consistency of the corrected nodal derivatives and the satisfaction of patch test conditions are theoretically proved and also numerically validated. Numerical results show that the proposed CEFG method greatly improves the numerical performance of the EFG method in terms of accuracy, convergence, efficiency and stability, especially the proposed cubic CEFG method, which shows exceptional accuracy and convergence.

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Adaptive consistent element-free Galerkin method for phase-field model of brittle fracture

Shao

Duan

Qiu

2019

Comput Mech

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Consistent element-free Galerkin method for three-dimensional crack propagation based on a phase-field model

Shao

Duan

Qiu

2020

Computational Materials Science

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Quadratically consistent one-point (QC1) integration for three-dimensional element-free Galerkin method

Gao

Duan

Shao

et al. 2016

Finite Elements in Analysis and Design

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Adaptive analysis for phase-field model of brittle fracture of functionally graded materials

Shao

Duan

Qiu

2021

Engineering Fracture Mechanics

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Yulong Shao

Consistent element‐free Galerkin method

Adaptive consistent element-free Galerkin method for phase-field model of brittle fracture

Consistent element-free Galerkin method for three-dimensional crack propagation based on a phase-field model

Quadratically consistent one-point (QC1) integration for three-dimensional element-free Galerkin method

Adaptive analysis for phase-field model of brittle fracture of functionally graded materials

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