Design optimization and evaluation of the 3 kA MgB<sub>2</sub> cable at 4.3 K for the superconducting link project at CERN

Konstantopoulou, Konstantina; Hurte, J.; Retz, P.W.; Ballarino, A.

doi:10.1088/1361-6668/ab13e7

Cited by 12 publications

(9 citation statements)

References 19 publications

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“…Unreacted wires can be bent to very small bending radii [1,[5][6][7][8]. In contrast to in situ, the use of ex situ wires is limited by their bending behaviour when being assembled into cables [9,10]. Recently, Rutherford MgB 2 cables were also made by using unreacted in-situ [11] and IMD wires [12].…”

Section: Introductionmentioning

confidence: 99%

MgB₂ cables made of thin wires manufactured by IMD process

Kòváč¹,

Kopera²,

Hain³

et al. 2020

Supercond. Sci. Technol.

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This paper presents the properties of cables made of thin MgB2 wires with different sheaths manufactured by IMD process. Strong effect of the outer sheath on the Je(B) performance was observed and the best properties were obtained for the strongest Cu sheath. It was found that the transversal and longitudinal cables uniformity affects the critical currents in MgB2 wires made by IMD considerably. We have analyzed the quench dynamics in Rutherford cables with Al+1.5%Al2O3 sheath, when subjected to heat disturbances. Quench triggered in the strands in direct contact with the heater, observing important delays in quench development among strands. Low AC losses were measured for the extra-light Rutherford cable with Ti barrier and Al+1.5%Al2O3 sheath due to an increased barrier resisitivity and surface Al sheath oxidation, which reduces coupling current loss component effectivelly.

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Section: Introductionmentioning

confidence: 99%

MgB₂ cables made of thin wires manufactured by IMD process

Kòváč¹,

Kopera²,

Hain³

et al. 2020

Supercond. Sci. Technol.

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“…Unlike high T c cuprate superconductors, MgB 2 shows no weak coupling of grains, indicating that it is not essential to obtain grain alignment. This is an important advantage of MgB 2 because a simple process, such as the powder-in-tube (PIT) method, can be applied for the fabrication of wires and tapes, which makes MgB 2 promising for important large-scale applications such as magnets [2] and cables [3]. However, the low J c of pristine MgB 2 is mainly caused by poor grain connectivity, porosity and weak flux pinning.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of J _c in C₆H₁₆N₂ added MgB₂ superconductor without carbon substitution for boron

Suo

Liu

et al. 2020

Supercond. Sci. Technol.

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The influence of C 6 H 16 N 2 addition on the microstructural and superconducting properties of MgB 2 was systematically investigated. Unlike previously reported carbon sources, the C 6 H 16 N 2 additive had no effect on the lattice parameters of MgB 2 . However, the obvious improvement of critical current density (J c ) was obtained for C 6 H 16 N 2 added MgB 2 without carbon substitution for boron. The average grain size was reduced with the addition of C 6 H 16 N 2 . Additionally, different numbers of spherical MgB 2 grains appeared inside the C 6 H 16 N 2 added MgB 2 . As the added amount of C 6 H 16 N 2 increased, the active cross-sectional area fraction (A F ) values first increased then decreased. The possible reasons for these results have been discussed. The additive C 6 H 16 N 2 resulted in a small depression in T c and slightly increased the ∆T c of MgB 2 at 0 T. The H c2 (T) and H irr (T) values of C 6 H 16 N 2 added MgB 2 samples are larger than those of pure MgB 2 at temperatures below 25 K. It was concluded that the reduced grain size and the improved grain connectivity were mainly correlated with the enhancement of the J c , F p , H c2 , and H irr performances in C 6 H 16 N 2 added MgB 2 superconductors.

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“…A coil made with a 300-m long wire [4] and a coil with a 1.7-km long wire for MRI use [5] were successfully implemented. The use of MgB 2 is not limited to magnets; MgB 2 wires have been used as power cables in superconducting (SC) links at CERN [6] and in the Best Paths project [7].…”

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confidence: 99%

Performance of MgB₂ Superconductor Developed for High-Efficiency Klystron Applications

Tanaka

Suzuki

Kodama

et al. 2020

IEEE Trans. Appl. Supercond.

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An 8-km long MgB2 wire for a prototype klystron magnet was made and evaluated. The wire was made by a typical in situ method; it has 10 filaments and 0.67 mm in outer diameter. The homogeneity of Ic of this wire was evaluated by several methods. Deviation of Ic values in short sample wires was very small. In addition, the current sharing temperature of the MgB2 magnet (made of two reels of wire 2.9 km long each) agreed well with the estimated value of the Ic-B-T properties in short sample wires. Based on the obtained results, it can be said that the Ic properties of the entire wire length are quite uniform.

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Design optimization and evaluation of the 3 kA MgB₂ cable at 4.3 K for the superconducting link project at CERN

Cited by 12 publications

References 19 publications

MgB₂ cables made of thin wires manufactured by IMD process

MgB₂ cables made of thin wires manufactured by IMD process

Enhancement of J _c in C₆H₁₆N₂ added MgB₂ superconductor without carbon substitution for boron

Performance of MgB₂ Superconductor Developed for High-Efficiency Klystron Applications

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Design optimization and evaluation of the 3 kA MgB2 cable at 4.3 K for the superconducting link project at CERN

Cited by 12 publications

References 19 publications

MgB2 cables made of thin wires manufactured by IMD process

MgB2 cables made of thin wires manufactured by IMD process

Enhancement of J c in C6H16N2 added MgB2 superconductor without carbon substitution for boron

Performance of MgB2 Superconductor Developed for High-Efficiency Klystron Applications

Contact Info

Product

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Design optimization and evaluation of the 3 kA MgB₂ cable at 4.3 K for the superconducting link project at CERN

MgB₂ cables made of thin wires manufactured by IMD process

MgB₂ cables made of thin wires manufactured by IMD process

Enhancement of J _c in C₆H₁₆N₂ added MgB₂ superconductor without carbon substitution for boron

Performance of MgB₂ Superconductor Developed for High-Efficiency Klystron Applications