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Superconducting Joints Made With Internal-Magnesium-Diffusion-Processed MgB2 Wires

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Akiyoshi Matsumoto; Hiroaki Kumakura
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Abstract:

MgB2 , which has a critical temperature Tc of 39 K, is a candidate for the practical application of liquid-helium-free magnetic resonance imaging systems. Since the disco...Show More

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Abstract:

MgB2 , which has a critical temperature Tc of 39 K, is a candidate for the practical application of liquid-helium-free magnetic resonance imaging systems. Since the discovery of MgB2, the performance of MgB2 wires and the technology required to manufacture long-length conductors have been significantly improved. Wires processed by internal magnesium diffusion (IMD) show high performance in comparison with powder-in-tube-processed MgB2 wires. Our group has been developing high-performance IMD wires. In this study, a joint connecting two IMD-processed MgB2 wires was fabricated. The maximum critical current in the connected wires was 1/3 lower than that in a normal IMD-processed wire at each considered magnetic field strength. However, the critical current of the joint at 3 T was equal to that of a normal IMD-processed wire at 10 T, suggesting that this joint would be effective at magnetic fields of around 3 T. Furthermore, a joint resistance of 10-13 Ω was obtained by measuring the current decay at the joint.
Published in: IEEE Transactions on Applied Superconductivity ( Volume: 28, Issue: 3, April 2018)
Article Sequence Number: 6200104
Date of Publication: 13 November 2017

ISSN Information:

DOI: 10.1109/TASC.2017.2772813

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Contents

I. Introduction

MgB2, which has a critical temperature of 39 K, is a candidate for the practical application of superconducting magnet coil for liquid-helium-free magnetic resonance imaging (MRI) systems [1]. Since the discovery of MgB2, the superconducting performance, especially critical current density of MgB2 wires and the technology required to manufacture long-length conductors have been significantly improved. Furthermore, long-length MgB2 wires have been made commercially available for various practical applications [2]. Many studies on MgB2 coils for MRI magnet systems have been investigated using these long-length wires. The superconducting properties of MgB2 wires have also undergone improvements. In particular, wires processed by internal magnesium diffusion (IMD) show high performance in comparison with powder-in-tube (PIT)-processed MgB2 wires. Our group has been developing high-performance IMD-processed wires with and values of over 100 and 10 kA/cm2 at 4.2 K and 10 T, respectively [3], [4].

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