This PhD work concerns the development of fast numerical tools, dedicated to the computation of the electromagnetic interaction between a low frequency 3D current source and a complex conductor, presenting rough interfaces and/or conductivity (and/or permeability) variations. The main application is the simulation of the Eddy Current non-destructive testing process applied to complex specimens. Indeed, the existing semi-analytical models currently available in the CIVA simulation platform are limited to canonical geometries. The method we propose here is based on the covariant Maxwell equations, which allow us to consider the physical equations and relationships in a non-orthogonal coordinate system depending on the geometry of the specimen...
Computational electromagnetics—the solution of Maxwell's equations using computers—is a key componen...
Nondestructive Testing (NDT) of parts for industrial applications such as in nuclear and aeronautica...
The PhD work presented here is devoted to the electromagnetic modeling. As a very important represen...
Ce travail de thèse de doctorat, effectué au sein de Laboratoire de Simulation et Modélisation Élect...
The thesis addresses the numerical simulation of non-destructive testing (NDT) using eddy currents, ...
The work exposed in this document is made up of two relatively independant parts.The first part deal...
International audienceThis paper deals with the development of a semi‐analytical model for the fast ...
To simulate numerically a non-destructive by eddy current testing (NDT-CF), the sensor response can ...
International audienceSemi-analytical models developed at Cea List for the simulation of Eddy curren...
Maxwell's equations written in 4D covariant tensorial form are first introduced. A simplified 3D for...
The aim of this thesis is to develop 3D finite element formulations for high frequency devices simul...
Le contrôle non destructif (CND) par Courants de Foucault (CF) de défauts de fissuration est l une d...
Several methodologies are presented in this work to facilitate the modeling of electromagnetic field...
Christine Bernardi, Tahar Zamène Boulmezaoud, Monique Dauge, Georges Delaunay, Yvon Maday, Jean Clau...
Computational electromagnetics—the solution of Maxwell's equations using computers—is a key componen...
Nondestructive Testing (NDT) of parts for industrial applications such as in nuclear and aeronautica...
The PhD work presented here is devoted to the electromagnetic modeling. As a very important represen...
Ce travail de thèse de doctorat, effectué au sein de Laboratoire de Simulation et Modélisation Élect...
The thesis addresses the numerical simulation of non-destructive testing (NDT) using eddy currents, ...
The work exposed in this document is made up of two relatively independant parts.The first part deal...
International audienceThis paper deals with the development of a semi‐analytical model for the fast ...
To simulate numerically a non-destructive by eddy current testing (NDT-CF), the sensor response can ...
International audienceSemi-analytical models developed at Cea List for the simulation of Eddy curren...
Maxwell's equations written in 4D covariant tensorial form are first introduced. A simplified 3D for...
The aim of this thesis is to develop 3D finite element formulations for high frequency devices simul...
Le contrôle non destructif (CND) par Courants de Foucault (CF) de défauts de fissuration est l une d...
Several methodologies are presented in this work to facilitate the modeling of electromagnetic field...
Christine Bernardi, Tahar Zamène Boulmezaoud, Monique Dauge, Georges Delaunay, Yvon Maday, Jean Clau...
Computational electromagnetics—the solution of Maxwell's equations using computers—is a key componen...
Nondestructive Testing (NDT) of parts for industrial applications such as in nuclear and aeronautica...
The PhD work presented here is devoted to the electromagnetic modeling. As a very important represen...