Sintering process and critical current density of low activation Mg11B2 superconductors from low temperature to high temperature
RIS ID
108309
Abstract
As the "low activation" superconductor, Mg11B2 has a potential application in superconducting coils for fusion reactor. In present work, the sintering process and critical current density of low activation Mg11B2 superconductors were systemically studied from low temperature to high temperature. It was found that the Jc and Hirr values of Mg11B2 bulks in present work are both obviously higher than that of those samples prepared in previous studies. Furthermore, the low-temperature sintered samples exhibit better Jc performance at high fields than the high-temperature sintered samples, due to strong grain boundaries pinning. On the other hand, the high-temperature sintered samples have higher Jc at low fields compared to low-temperature sintered samples, mainly owing to their better crystallinity and grain connectivity. The highest Jc value (2.20 x105 A cm-2 at 20 K, self-field) is obtained in the Mg11B2 sample sintered at 850 °C for 45 min.
Grant Number
ARC/DE140101333
Publication Details
Cheng, F., Liu, Y., Ma, Z., Al Hossain, M. & Somer, M. (2016). Sintering process and critical current density of low activation Mg11B2 superconductors from low temperature to high temperature. Physica C: Superconductivity and its Applications, 527 9-13.