A Stabilization Method of F-barES-FEM-T4 for Dynamic Explicit Analysis of Nearly Incompressible Materials

Selective Cell-Based Smoothed Finite Element Method Using 10-Node Tetrahedral Element with Radial Element Subdivision ⋮ A unified-implementation of smoothed finite element method (UI-SFEM) for simulating biomechanical responses of multi-materials orthodontics ⋮ A Concept of Cell-Based Smoothed Finite Element Method Using 10-Node Tetrahedral Elements (CS-FEM-T10) for Large Deformation Problems of Nearly Incompressible Solids

An edge-based smoothed tetrahedron finite element method (ES-T-FEM) for 3D static and dynamic problems
A three-dimensional nonlinear meshfree algorithm for simulating mechanical responses of soft tissue
Solution bound and nearly exact solution to nonlinear solid mechanics problems based on the smoothed FEM concept
Mixed finite element methods - reduced and selective integration techniques: a unification of concepts
Design of simple low order finite elements for large strain analysis of nearly incompressible solids
Stability and accuracy improvement for explicit formulation of time domain acoustic problems
A stabilised Petrov-Galerkin formulation for linear tetrahedral elements in compressible, nearly incompressible and truly incompressible fast dynamics
Hybrid smoothed finite element method for acoustic problems
On stability, convergence and accuracy of bES-FEM and bFS-FEM for nearly incompressible elasticity
Volumetric locking issue with uncertainty in the design of locally resonant acoustic metamaterials
A first order hyperbolic framework for large strain computational solid dynamics. II: Total Lagrangian compressible, nearly incompressible and truly incompressible elasticity
\(\overline {\text B}\) and \(\overline {\text F}\) projection methods for nearly incompressible linear and nonlinear elasticity and plasticity using higher-order NURBS elements
ADDITIONAL PROPERTIES OF THE NODE-BASED SMOOTHED FINITE ELEMENT METHOD (NS-FEM) FOR SOLID MECHANICS PROBLEMS
A locking-free selective smoothed finite element method using tetrahedral and triangular elements with adaptive mesh rezoning for large deformation problems
Selective smoothed finite element methods for extremely large deformation of anisotropic incompressible bio-tissues
A simple, stable, and accurate linear tetrahedral finite element for transient, nearly, and fully incompressible solid dynamics: a dynamic variational multiscale approach
A 10-node composite tetrahedral finite element for solid mechanics
MID-FREQUENCY ACOUSTIC ANALYSIS USING EDGE-BASED SMOOTHED TETRAHEDRON RADIALPOINT INTERPOLATION METHODS
Adaptive analysis using the node-based smoothed finite element method (NS-FEM)
A face-based smoothed finite element method (FS-FEM) for 3D linear and geometrically non-linear solid mechanics problems using 4-node tetrahedral elements
Generalization of selective integration procedures to anisotropic and nonlinear media
F‐bar aided edge‐based smoothed finite element method using tetrahedral elements for finite deformation analysisof nearly incompressible solids
ON G SPACE THEORY
F-Bar Aided Edge-Based Smoothed Finite Element Method with 4-Node Tetrahedral Elements for Static Large Deformation Elastoplastic Problems
Accurate Viscoelastic Large Deformation Analysis Using F-Bar Aided Edge-Based Smoothed Finite Element Method for 4-Node Tetrahedral Meshes (F-BarES-FEM-T4)
F‐bar‐based linear triangles and tetrahedra for finite strain analysis of nearly incompressible solids. Part I: formulation and benchmarking