Development of High Current Capacity Mono- and 18-Filament in situ ${MgB}_{2}$ Cables by Varying the Twist Pitch

Undoped and carbon doped magnesium diboride $({MgB}_{2})$ cables have been assembled by braiding six Nb/Monel and Nb/Cu/stainless steel (SS) sheathed mono- and multifilament strands with a central copper stabilizer for improving the operational environment. This paper presents the fabrication and ch...

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Bibliographic Details
Published in:IEEE transactions on applied superconductivity 2014-10, Vol.24 (5), p.1-4
Main Authors: Hossain, MSA, Gazder, A A, Barua, S, Motaman, A, Patel, D, Kim, J-H, Kario, A, Ringsdorf, B, Runtsch, B, Jung, A, Rindfleisch, M, Dou, S-X, Goldacker, W
Format: Article
Language:English
Subjects:
Braiding
Cables
Carbon
Copper
Current density
Magnesium
Nickel base alloys
Niobium
Single wires
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Summary:Undoped and carbon doped magnesium diboride $({MgB}_{2})$ cables have been assembled by braiding six Nb/Monel and Nb/Cu/stainless steel (SS) sheathed mono- and multifilament strands with a central copper stabilizer for improving the operational environment. This paper presents the fabrication and characterization of two types of in situ powder-in-tube processed mono (pure) and multi- filament (carbon doped) $MgB}_{2}$ cables with different twist pitch lengths; thereby making them possible candidates for industrial AC applications. Critical current is not influenced by the cabling that results in various twist lengths. The total critical current of the braided cables is obtained by multiplying the critical current of six single wires without any dissipation. The critical current density $(J_{\rm c})$ of pure (mono) and carbon doped (18-filament) six stranded cable reached 10 000 $A/cm}2}$ at 5.5 and 10 T, respectively; without any observable deleterious effect caused by varying the twist pitch. The engineering current density $(J_{\rm e})$ of both cables reached the same value of 10 000 $A/cm}2}$ at 3.5 and 6.5 T, respectively. Compared to the literature, this work reports some of the highest $J_{\rm c}$ and $J_{\rm e}$ values for carbon doped multifilament cables that remain unaffected upon varying the twist pitch. The present results are promising in terms of scaling up these cables to industrial lengths for transformers, fault-current limiters-based applications and paves the way for the development of optimal protocols for practical functionality.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2014.2347322