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Modelling and Performance Analysis of MgB 2 and Hybrid Magnetic Shields.

Michela FracassoFedor GömöryMykola SolovyovRoberto GerbaldoGianluca GhigoFrancesco LavianoAndrea NapolitanoDaniele TorselloLaura Gozzelino
Published in: Materials (Basel, Switzerland) (2022)
Superconductors are strategic materials for the fabrication of magnetic shields, and within this class, MgB2 has been proven to be a very promising option. However, a successful approach to produce devices with high shielding ability also requires the availability of suitable simulation tools guiding the optimization process. In this paper, we report on a 3D numerical model based on a vector potential ( A )-formulation, exploited to investigate the properties of superconducting (SC) shielding structures with cylindrical symmetry and an aspect ratio of height to diameter approaching one. To this aim, we first explored the viability of this model by solving a benchmark problem and comparing the computation outputs with those obtained with the most used approach based on the H -formulation. This comparison evidenced the full agreement of the computation outcomes as well as the much better performance of the model based on the A -formulation in terms of computation time. Relying on this result, the latter model was exploited to predict the shielding properties of open and single capped MgB2 tubes with and without the superimposition of a ferromagnetic (FM) shield. This investigation highlighted that the addition of the FM shell is very efficient in increasing the shielding factors of the SC screen when the applied magnetic field is tilted with respect to the shield axis. This effect is already significant at low tilt angles and allows compensating the strong decrease in the shielding ability that affects the short tubular SC screens when the external field is applied out of their axis.
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