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    Fabrication, Transport Current Testing, and Finite Element Analysis of MgB2 Racetrack Coils
    (Springer, 2017) Kundu, Ananya; Patel, Dipak; Kumar, Nitish; Panchal, Arun G.; Qiu, Wenbin; Jie, Hyunseock; Ma, Zongqing
    This paper reports the fabrication, transport current testing, and finite element analysis of magnesium diboride (MgB2) racetrack coils made by a wind and react method at 4.2 K in self-field. This type of coil can be potentially appropriate for applications aimed at building block coils that can serve as wind turbine generator coils and correction coils for fusion magnets. We have fabricated racetrack coils using an in situ monofilament MgB2/Niobium/Monel wire; each coil had a wire length of 45 m and 80 turns. The best measured critical current of the coil was 134.9 A at 4.2 K and self-field of 0.55 T. In addition, the magnetic field and the Lorentz force contribution in the coil were estimated using finite element analysis.
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    Superior transport Jc obtained in in-situ MgB2 wires by tailoring the starting materials and using a combined cold high pressure densification and hot isostatic pressure treatment
    (Pergamon-Elsevier Science Ltd, 2017) Jie, Hyunseock; Qiu, Wenbin; Billah, Motasim; Mustapic, Mislav; Patel, Dipak; Ma, Zongqing; Gajda, Daniel
    The best J(c) performance (8 x 10(4) A.cm(-2) at 10 T, 4.2 K) has been obtained in our work among all the in-situ powder -in-tube (PIT) MgB2 wires reported so far by tailoring their boron and magnesium precursors, as well as employing appropriate high pressure during the manufacturing process. Moreover, the second stage densification using the special HIP has been applied to commercial long-length wire. Our work suggests that the economical starting precursors and the combination of cold and hot densification techniques could represent a promising alternative for industrial and economical production of practical MgB2 wires with excellent J(c). (C) 2016 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.