There are many approaches to 3D eddy current analysis. Typical methods for the eddy current analysis are the A-ø method and the T-ω method. Both methods require variables in space as well as in a conductor. We have already proposed the T method [1, 2, 3], where a magnetic scalar potential ω is not included and we do not need variables in space. But the method has a disadvantage that a large core memory is needed due to a dense matrix
In planning an inspection procedure, or in designing parts with flaw detectability as a design goal,...
Conventional eddy current NDT methods rely for their operation on the interaction of quasi-static el...
The numerical modeling of single frequency eddy-current phenomena based on the magnetic vector poten...
The success of two-dimensional eddy current models for modeling a variety of important nondestructiv...
In eddy current non-destructive testing, numerical models have been used for a long time to optimize...
In this paper, we try to use the finite element method of 2-D axisymmetry to solve problems in eddy ...
Eddy current testing (ECT) is a type of non-destructive testing and effective for detecting surface ...
The Finite Element Method for the computation of eddy current fields is presented. The method is des...
The purpose of this paper was to find the geometry of a crack within a conductive plate and its para...
In this paper an innovative technique is described to solve the electromagnetic problem in the prese...
In this paper, we present numerical models and experimental benchmarks for eddy current testing (ECT...
An improved T-Ω method that can analyze magnetic fields produced not only by eddy currents but ...
This paper deals with a new 3D finite element scheme for nondestructive eddy-current testing (ECT) p...
Inversion of eddy-current data and the reconstruction of flaws is the preeminent problem in electrom...
Linear and nonlinear numerical formulations for an efficient solution of forward and inverse problem...
In planning an inspection procedure, or in designing parts with flaw detectability as a design goal,...
Conventional eddy current NDT methods rely for their operation on the interaction of quasi-static el...
The numerical modeling of single frequency eddy-current phenomena based on the magnetic vector poten...
The success of two-dimensional eddy current models for modeling a variety of important nondestructiv...
In eddy current non-destructive testing, numerical models have been used for a long time to optimize...
In this paper, we try to use the finite element method of 2-D axisymmetry to solve problems in eddy ...
Eddy current testing (ECT) is a type of non-destructive testing and effective for detecting surface ...
The Finite Element Method for the computation of eddy current fields is presented. The method is des...
The purpose of this paper was to find the geometry of a crack within a conductive plate and its para...
In this paper an innovative technique is described to solve the electromagnetic problem in the prese...
In this paper, we present numerical models and experimental benchmarks for eddy current testing (ECT...
An improved T-Ω method that can analyze magnetic fields produced not only by eddy currents but ...
This paper deals with a new 3D finite element scheme for nondestructive eddy-current testing (ECT) p...
Inversion of eddy-current data and the reconstruction of flaws is the preeminent problem in electrom...
Linear and nonlinear numerical formulations for an efficient solution of forward and inverse problem...
In planning an inspection procedure, or in designing parts with flaw detectability as a design goal,...
Conventional eddy current NDT methods rely for their operation on the interaction of quasi-static el...
The numerical modeling of single frequency eddy-current phenomena based on the magnetic vector poten...