A pseudo-elastic local meshless formulation is developed in this paper for elasto-plastic analysis of solids. The moving least square (MLS) is used to construct the meshless shape functions, and the weighted local weak-form is employed to derive the system of equations. Hencky’s total deformation theory is applied to define the effective Young’s modulus and Poisson’s ratio in the nonlinear analysis, which are obtained in an iterative manner using the strain controlled projection method. Numerical studies are presented for the elasto-plastic analysis of solids by the newly developed meshless formulation. It has demonstrated that the present pseudo-elastic local meshless approach is very effective for the elasto-plastic analysis of solids
Abstract: Three different truly Meshless Local Petrov-Galerkin (MLPG) methods are developed for solv...
Based on the moving least-squares (MLS) approach, an efficient meshless method is employed to genera...
In order to develop a rational numerical method for analyzing micro behavior under macro deformation...
A pseudo-elastic local meshless formulation is developed in this paper for elasto-plastic analysis o...
This paper aims to develop an effective meshless technique for the analysis of elasto-plastic proble...
Over the past two decades meshless methods have attracted much attention owing to their advantages i...
Meshless methods continue to generate strong interest as alternatives to conventional finite element...
In this paper, the meshless integral method based on the regularized boundary integral equation [1] ...
Finite element method has been the dominant technique in computational mechanics in the past decades...
Large deformations of rubber-like materials are analyzed by the meshless local Petrov–Galerkin (MLPG...
Doctor of PhilosophyDepartment of Mechanical and Nuclear EngineeringPrakash KrishnaswamiXiao J. XinO...
To accurately and effectively simulate large deformation is one of the major challenges in numerical...
Large deformation analysis is one of the major challenges in numerical modelling and simulation of m...
This paper presents the development of Meshless Methods based on the weighted least squares approxim...
In this paper, an extended meshfree method [9] for solving elastic boundary value problems is summar...
Abstract: Three different truly Meshless Local Petrov-Galerkin (MLPG) methods are developed for solv...
Based on the moving least-squares (MLS) approach, an efficient meshless method is employed to genera...
In order to develop a rational numerical method for analyzing micro behavior under macro deformation...
A pseudo-elastic local meshless formulation is developed in this paper for elasto-plastic analysis o...
This paper aims to develop an effective meshless technique for the analysis of elasto-plastic proble...
Over the past two decades meshless methods have attracted much attention owing to their advantages i...
Meshless methods continue to generate strong interest as alternatives to conventional finite element...
In this paper, the meshless integral method based on the regularized boundary integral equation [1] ...
Finite element method has been the dominant technique in computational mechanics in the past decades...
Large deformations of rubber-like materials are analyzed by the meshless local Petrov–Galerkin (MLPG...
Doctor of PhilosophyDepartment of Mechanical and Nuclear EngineeringPrakash KrishnaswamiXiao J. XinO...
To accurately and effectively simulate large deformation is one of the major challenges in numerical...
Large deformation analysis is one of the major challenges in numerical modelling and simulation of m...
This paper presents the development of Meshless Methods based on the weighted least squares approxim...
In this paper, an extended meshfree method [9] for solving elastic boundary value problems is summar...
Abstract: Three different truly Meshless Local Petrov-Galerkin (MLPG) methods are developed for solv...
Based on the moving least-squares (MLS) approach, an efficient meshless method is employed to genera...
In order to develop a rational numerical method for analyzing micro behavior under macro deformation...