Journal
PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS
Volume 477, Issue -, Pages 20-23Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.physc.2012.02.026
Keywords
MgB2; In situ process; Oxidized powders; MgO; Critical currents; Resistivity
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Funding
- Slovak Scientific Agency [APVV-0495-10]
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Single-core MgB2/Ti wires have been made from mixed (in situ) and intensively milled (mechanically alloyed) Mg + B powders. Both powders were oxidized at room temperature for 48 h and also by heat treatment at 400 degrees C/1 h in air. Critical current density and resistivity measurements were performed for the samples with oxidized powders and also for those protected in glove box with high purity Ar. It was found that oxidation of in situ mixture is slightly decreasing critical current density. Surprisingly, the oxidation of much finer mechanically alloyed powder is improving J(c) in spite of increased MgB2 resistivity. J(c) at 10T increase by 47-100% was measured for mechanically alloyed powder oxidized at room temperature. This allows a safety handling with intensively milled Mg + B powders in air. (C) 2012 Elsevier B.V. All rights reserved.
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