Research on Stability of ${\rm MgB}_{2}$ Superconducting Magnet for MRI

Autor: Ming-Hua Qiu, Zhuo Zhang, L.Y. Xiao, W W Zhou, Shouyu Dai, Fa Zhang, Liangzhen Lin, Guomin Zhang, X H Li, Naihao Song, Jinzheng Zhang, Xiaoji Du, Z.K. Wang, Dong Zhang
Rok vydání: 2011
Předmět:
Zdroj: IEEE Transactions on Applied Superconductivity. 21:2100-2103
ISSN: 1558-2515
1051-8223
Popis: Magnesium diboride (MgB2) shows a wide application prospect in the field of low field DC application for its relatively simple structure and rather higher critical temperature than LTS. With the development of MgB2 composite superconductor manufacturing technology and cryogenic technology, developing conduction cooled superconducting MRI system with MgB2 composite superconductor is becoming increasingly feasible. An MgB2 superconducting magnet for MRI was developed. The MgB2 superconducting magnet is used to investigate the fundamental scientific problem of the MRI main magnet, including field uniformity and stability, influencing factors of MgB2 composite superconductor on field uniformity and stability. The superconducting magnet consists of 2 solenoids wound with MgB2 wire with the length of 60 m. The magnet has an outer diameter of 169 mm, an iron core diameter of 135 mm, and air gap of 32 mm. The superconducting magnet is fabricated and tested. The central magnetic field reaches 1.0 T when the current of the MgB2 magnet is 290 A. The central magnetic field is 0.39 T when the current of the MgB2 magnet is 100 A. In this paper, the minimum quench energy, the quench propagation velocity and the minimum propagation zone of the MgB2 composite conductor are measured. Main magnet for MRI with MgB2 composite superconductor is analysed and proposed, including magnet design and test results. By theoretical modeling and simulation, the detailed quench propagation of the magnet is further analysed. Finally, the stability criteria of conduction-cooled MRI magnet are established.
Databáze: OpenAIRE
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