Add to ORKGWe consider finite element models for high-temperature superconductors and compare two dual formulations, either magnetic-field conforming (H formulation) or magnetic-flux density conforming (A formulation), both with an E(J) power law. The accuracy and efficiency of the formulations are discussed on the basis of the shape of the constitutive law involved in each case. We discuss the performance of each formulation and compare results against benchmarks for superconducting tapes and for bulk trapped-field magnets. We draw general recommendations for the choice of a formulation, an iteration scheme for linearizing the constitutive law, and a time-stepping extrapolation scheme. This approach is extended to soft ferromagnetic materials with a ...
International audienceThis work shows how to implement the H-φ formulation in a commercial finite el...
International audienceHigh Temperature Superconductors (HTS) are promising for applications requirin...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...
peer reviewedIn this paper, we consider finite element models for high-temperature superconductors a...
peer reviewedWe discuss the relevance of several finite-element formulations for nonlinear systems ...
This paper reviews the modeling of high-temperature superconductors (HTS) using the finite-element m...
This thesis is focused on numerical modelling of high-temperature superconductors (HTS) for the purp...
This article presents a review of the finite-element method (FEM) model based on the H formulation o...
Different finite-element method (FEM) formulations have been developed in order to model the electro...
International audienceA new iterative algorithm is developed to model 2D and 3D magnetization of the...
In this work, we present a parallel, fully-distributed finite element numerical framework to simulat...
peer reviewedIn this work, we present and analyze the numerical stability of two coupled finite elem...
In this work, we present a parallel, fully-distributed finite element numerical framework to simulat...
Superconductors have a bright future; they are able to carry very high current densities, switch rap...
International audienceHigh Temperature Superconductors (HTS) are promising for applications requirin...
International audienceThis work shows how to implement the H-φ formulation in a commercial finite el...
International audienceHigh Temperature Superconductors (HTS) are promising for applications requirin...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...
peer reviewedIn this paper, we consider finite element models for high-temperature superconductors a...
peer reviewedWe discuss the relevance of several finite-element formulations for nonlinear systems ...
This paper reviews the modeling of high-temperature superconductors (HTS) using the finite-element m...
This thesis is focused on numerical modelling of high-temperature superconductors (HTS) for the purp...
This article presents a review of the finite-element method (FEM) model based on the H formulation o...
Different finite-element method (FEM) formulations have been developed in order to model the electro...
International audienceA new iterative algorithm is developed to model 2D and 3D magnetization of the...
In this work, we present a parallel, fully-distributed finite element numerical framework to simulat...
peer reviewedIn this work, we present and analyze the numerical stability of two coupled finite elem...
In this work, we present a parallel, fully-distributed finite element numerical framework to simulat...
Superconductors have a bright future; they are able to carry very high current densities, switch rap...
International audienceHigh Temperature Superconductors (HTS) are promising for applications requirin...
International audienceThis work shows how to implement the H-φ formulation in a commercial finite el...
International audienceHigh Temperature Superconductors (HTS) are promising for applications requirin...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...