Journal
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
Volume 26, Issue 3, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TASC.2016.2537143
Keywords
Bulk MgB2; field-cooling process; flux jumps; strong magnetic field; trapped magnetic field
Funding
- French National Research Agency [ANR-14-ASTR-0009]
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From the applications' point of view, the advantage of low density given by MgB2 material must be taken into consideration, and the generation of strong magnetic flux densities using MgB2 should be investigated. In this paper, we have studied the magnetic properties of samples processed by a fast spark plasma sintering machine that is able to produce dense and high-quality MgB2 samples. Experiments were carried out both on small pieces of the samples and on large-sized samples performing trapped field measurements in a field-cooling process. For temperatures between 10 and 30 K, the results show a strong dependence of the magnetic behavior of the large-sized samples to the applied magnetic field sweep rate, whereas nothing particular appeared on the small samples. As the magnetic flux density produced by MgB2 bulks is directly linked to the potential of the applications, we report on the field produced at the surface of one single MgB2 sample of 30-mm diameter and the field produced inside a stack of two MgB2 samples of 20-mm diameter. A generation of magnetic flux density (magnetic polarization mu M-0) up to 4.80 T at 10 K and 3.92 T at 20 K inside the stack of the two MgB2 samples was observed under a negative supporting field of -1.47 and -1.95 T, respectively. According to these values to their very low density and to their ease of manufacturing, MgB2 bulks are promising materials for the applications of superconductors.
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