High magnetic shielding properties of an MgB<sub>2</sub> cup obtained by machining a spark-plasma-sintered bulk cylinder

Gozzelino, Laura; Gerbaldo, Roberto; Ghigo, Gianluca; Torsello, Daniele; Bonino, Valentina; Truccato, Marco; Grigoroscuta, Mihai Alexandru; Burdusel, M.; Aldica, G.; Sandu, V.; Pasuk, Iuliana; Badica, P.

doi:10.1088/1361-6668/ab7846

Cited by 21 publications

(38 citation statements)

References 46 publications

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“…The details of raw materials, additives, preparation conditions, as well as the structure, microstructure and physical properties of the samples are presented in the references attached to each sample. The samples selected for analysis are: ( i ) pure MgB 2 16 ; ( ii ) (MgB 2 ) 0.99 (Te 0.25 (HoO 1.5 ) 0.75 ) 0.01 17 ; ( iii ) (MgB 2 ) 0.99 (B 4 C) 0.01 18 ; ( iv ) weakly oriented MgB 2 (orientation degree ~ 21%) 19 ; ( v ) highly oriented MgB 2 (orientation degree ~ 40.5%) 20 . The partial c -axis orientation was induced in the green compacts of the samples ( iv ) and ( v ) by field assisted slip casting (FASC) under a high magnetic field of 12 T. The subsequent SPS procedure enhanced the orientation.…”

Section: Methodsmentioning

confidence: 99%

On the pinning force in high density MgB2 samples

Sandu

Ionescu

Aldica

et al. 2021

Sci Rep

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An analysis of the field dependence of the pinning force in different, high density sintered samples of MgB2 is presented. The samples were chosen to be representative for pure MgB2, MgB2 with additives, and partially oriented massive samples. In some cases, the curves of pinning force versus magnetic field of the selected samples present peculiar profiles and application of the typical scaling procedures fails. Based on the percolation model, we show that most features of the field dependence of the critical force that generate dissipation comply with the Dew-Hughes scaling law predictions within the grain boundary pinning mechanism if a connecting factor related to the superconducting connection of the grains is used. The field dependence of the connecting function, which is dependent on the superconducting anisotropy, is the main factor that controls the boundary between dissipative and non-dissipative current transport in high magnetic field. Experimental data indicate that the connecting function is also dependent on the particular properties (e.g., the presence of slightly non-stoichiometric phases, defects, homogeneity, and others) of each sample and it has the form of a single or double peaked function in all investigated samples.

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Section: Methodsmentioning

confidence: 99%

On the pinning force in high density MgB2 samples

Sandu

Ionescu

Aldica

et al. 2021

Sci Rep

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“…Equation ( 1) ensures the collinearity between the current density and the electric field, expected in superconductors with isotropic properties, as the polycrystalline MgB 2 bulks that we characterized are assumed to be [49]. This equation slightly differs from that reported in Ref.…”

Section: Basics Of the A-formulationmentioning

confidence: 96%

“…To this aim, we considered the critical current density values achieved at T = 30 K from magnetic flux density measurements carried out on the axis of tube-and cup-shaped shields while the applied field was cycling [48,54]. These shields were obtained by carving fully machinable MgB 2 cylinders, fabricated by spark plasma sintering of BN-added MgB 2 powders [48,49]. We chose the working temperature of 30 K because it guarantees a negligible flux-jump occurrence, thus allowing the J c calculation [49], joined with still noteworthy shielding properties (by way of example, the cup shielding performances are still comparable with those found at 20 K on a YBa 2 Cu 3 O 7 cup with similar aspect ratio [8]).…”

Section: Materials Propertiesmentioning

confidence: 99%

“…A cap addition with a superconducting joint proved to significantly enhance the shielding ability of a short tube [11,48]. However, also in this case, the efficiency of the device results remarkably reduced when a field tilted with respect to the shield axis is applied [49,52]. Therefore, an analogous study on the effect of the superimposition of an FM shell was carried out in the case of cup-shaped shields.…”

Section: Cup-shaped Shieldsmentioning

confidence: 99%

“…The material choice was driven by the MgB 2 specific features, such as the low-cost, the use of non-toxic precursors (e.g., not containing rare earth elements), the low weight density, and the long coherence length. In particular, the last characteristic implies that boundaries among well connected grains do not prevent the flow of high current densities, thus opening to the employment of large polycrystalline manufacts-fabricated by in situ or ex situ sintering processes [45][46][47][48][49] or by infiltration processes [9,50,51]-for large scale applications.…”

Section: Introductionmentioning

confidence: 99%

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Modelling and Performance Analysis of MgB2 and Hybrid Magnetic Shields

et al. 2022

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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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Novel ultra-sonic boron refinement in distilled water for cost-efficient fabrication of MgB2 bulk ceramic superconductors

Arvapalli¹,

Muralidhar²,

Sakai³

et al. 2022

Ceramics International

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High magnetic shielding properties of an MgB₂ cup obtained by machining a spark-plasma-sintered bulk cylinder

Cited by 21 publications

References 46 publications

On the pinning force in high density MgB2 samples

On the pinning force in high density MgB2 samples

Modelling and Performance Analysis of MgB2 and Hybrid Magnetic Shields

Novel ultra-sonic boron refinement in distilled water for cost-efficient fabrication of MgB2 bulk ceramic superconductors

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High magnetic shielding properties of an MgB2 cup obtained by machining a spark-plasma-sintered bulk cylinder

Cited by 21 publications

References 46 publications

On the pinning force in high density MgB2 samples

On the pinning force in high density MgB2 samples

Modelling and Performance Analysis of MgB2 and Hybrid Magnetic Shields

Novel ultra-sonic boron refinement in distilled water for cost-efficient fabrication of MgB2 bulk ceramic superconductors

Contact Info

Product

Resources

About

High magnetic shielding properties of an MgB₂ cup obtained by machining a spark-plasma-sintered bulk cylinder