A numerical approach to the resolution of coupled electromagnetic-mechanical problems by means of a mesh-free formulation is here proposed. Possible discontinuities are treated by means of a jump function, and full advantages are taken of the capabilities of mesh-free methods in the treatment of deforming domains. In order to highlight the effectiveness of the proposed approach, two quasi-static electromagnetic-mechanical problems in a 1-D and a 2-D configuration are presented
Efficient numerical models have been already developed in 2D to take into account the movement of el...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this paper an advanced mesh-free particle method for electromagnetic transient analysis, is prese...
A numerical approach to the resolution of coupled electromagnetic-mechanical problems by means of a ...
A numerical approach to the resolution of coupled electromagnetic-mechanical problems by means of a ...
An improved meshless method is presented, with an emphasis on the detailed description of this new c...
Structure of a novel meshless solution procedure for calculation of solid and fluid mechanics proble...
A meshless method for electromagnetic field computation is developed based on the multiquadric inter...
Abstract—An improved meshless method is presented with an emphasis on the detailed description of th...
A refinement algorithm for electromagnetic field computations using a combination of finite element ...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
Solving electromagnetic (EM) integral equations by numerical methods strongly relies on the domain d...
Although numerically very ecient the nite element method exhibits diculties whenever the remeshing o...
Meshfree methods have been extensively investigated in recent years due to their flexibility in solv...
Abstract. Standard meshbased methods such as the FEM are frequently and reliably used for the simula...
Efficient numerical models have been already developed in 2D to take into account the movement of el...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this paper an advanced mesh-free particle method for electromagnetic transient analysis, is prese...
A numerical approach to the resolution of coupled electromagnetic-mechanical problems by means of a ...
A numerical approach to the resolution of coupled electromagnetic-mechanical problems by means of a ...
An improved meshless method is presented, with an emphasis on the detailed description of this new c...
Structure of a novel meshless solution procedure for calculation of solid and fluid mechanics proble...
A meshless method for electromagnetic field computation is developed based on the multiquadric inter...
Abstract—An improved meshless method is presented with an emphasis on the detailed description of th...
A refinement algorithm for electromagnetic field computations using a combination of finite element ...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
Solving electromagnetic (EM) integral equations by numerical methods strongly relies on the domain d...
Although numerically very ecient the nite element method exhibits diculties whenever the remeshing o...
Meshfree methods have been extensively investigated in recent years due to their flexibility in solv...
Abstract. Standard meshbased methods such as the FEM are frequently and reliably used for the simula...
Efficient numerical models have been already developed in 2D to take into account the movement of el...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this paper an advanced mesh-free particle method for electromagnetic transient analysis, is prese...