A face‐based smoothed finite element method (FS‐FEM) for 3D linear and geometrically non‐linear solid mechanics problems using 4‐node tetrahedral elements

Nguyen-Thoi, T.; Liu, G.R.; Lam, Kwok‐Yan; Zhang, Guiyong

doi:10.1002/nme.2491

Cited by 307 publications

(181 citation statements)

References 31 publications

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“…In the other front of the development of numerical methods, Liu and Nguyen Thoi [39] have integrated the strain smoothing technique [40] into the finite element method (FEM) to create a series of smoothed FEMs (S-FEMs) such as cell/element-based smoothed FEM (CS-FEM) [41][42][43], node-based smoothed FEM (NS-FEM) [44][45][46], edge-based smoothed FEM (ES-FEM) [47,48], face-based smoothed FEM (FS-FEM) [49], and a group of alpha-FEM [50][51][52][53]. Each of these smoothed FEMs has different properties and has been used to produce desired solutions for a wide class of benchmark and practical mechanics problems.…”

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confidence: 99%

RETRACTED ARTICLE: A limit analysis of Mindlin plates using the cell-based smoothed triangular element CS-MIN3 and second-order cone programming (SOCP)

Nguyen-Thoi

Phung‐Van

Canh

2014

Asia Pac. J. Comput. Engin.

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Background: The paper presents a numerical procedure for kinematic limit analysis of Mindlin plate governed by von Mises criterion. Methods: The cell-based smoothed three-node Mindlin plate element (CS-MIN3) is combined with a second-order cone optimization programming (SOCP) to determine the upper bound limit load of the Mindlin plates. In the CS-MIN3, each triangular element will be divided into three sub-triangles, and in each sub-triangle, the gradient matrices of MIN3 is used to compute the strain rates. Then the gradient smoothing technique on whole the triangular element is used to smooth the strain rates on these three sub-triangles. The limit analysis problem of Mindlin plates is formulated by minimizing the dissipation power subjected to a set of constraints of boundary conditions and unitary external work. For Mindlin plates, the dissipation power is computed on both the middle plane and thickness of the plate. This minimization problem then can be transformed into a form suitable for the optimum solution using the SOCP. Results and Conclusions: The numerical results of some benchmark problems show that the proposal procedure can provide the reliable upper bound collapse multipliers for both thick and thin plates.

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confidence: 99%

RETRACTED ARTICLE: A limit analysis of Mindlin plates using the cell-based smoothed triangular element CS-MIN3 and second-order cone programming (SOCP)

Nguyen-Thoi

Phung‐Van

Canh

2014

Asia Pac. J. Comput. Engin.

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“…By incorporating the strain smoothing technique into the finite element method (FEM), Liu et al, [26] have formulated a series of smoothed finite element methods (SFEM), named as cell-based SFEM (CS-FEM) [32,3], node-based SFEM [25], edge-based SFEM [24], facebased SFEM [31] and α-FEM [23]. Nguyen-Xuan et al, [33] employed CS-FEM for MindlinReissner plates.…”

Section: Introductionmentioning

confidence: 99%

Analysis of composite plates by a unified formulation-cell based smoothed finite element method and field consistent elements

Natarajan

Ferreira

Bordas

et al. 2013

Composite Structures

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“…This new numerical method is rooted in meshless stabilized conforming nodal integration and exhibits a number of attractive properties such as good numerical stability and accuracy, excellent convergence rate, and insensitivity to volumetric locking and mesh distortion (Liu et al (2007)). The smoothed finite element method has been successfully applied to large variety of problems including 2D and 3D linear and nonlinear problems (Nguyen et al (2009)), dynamic analysis (Luong- Van et al (2014)), plate and shell structures ; Nguyen-Thanh et al (2008)). …”

Section: Latin American Journal Of Solids and Structures 13 (2016) 37mentioning

confidence: 99%

Structural Topology Optimization Based on the Smoothed Finite Element Method

Shobeiri

2016

Lat. Am. j. solids struct.

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In this paper, the smoothed finite element method, incorporated with the level set method, is employed to carry out the topology optimization of continuum structures. The structural compliance is minimized subject to a constraint on the weight of material used. The cell-based smoothed finite element method is employed to improve the accuracy and stability of the standard finite element method. Several numerical examples are presented to prove the validity and utility of the proposed method. The obtained results are compared with those obtained by several standard finite elementbased examples in order to access the applicability and effectiveness of the proposed method. The common numerical instabilities of the structural topology optimization problems such as checkerboard pattern and mesh dependency are studied in the examples.

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A face‐based smoothed finite element method (FS‐FEM) for 3D linear and geometrically non‐linear solid mechanics problems using 4‐node tetrahedral elements

Cited by 307 publications

References 31 publications

RETRACTED ARTICLE: A limit analysis of Mindlin plates using the cell-based smoothed triangular element CS-MIN3 and second-order cone programming (SOCP)

RETRACTED ARTICLE: A limit analysis of Mindlin plates using the cell-based smoothed triangular element CS-MIN3 and second-order cone programming (SOCP)

Analysis of composite plates by a unified formulation-cell based smoothed finite element method and field consistent elements

Structural Topology Optimization Based on the Smoothed Finite Element Method

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