| Literature DB >> 27857508 |
H S Kim1, C Kovacs1, M Rindfleisch2, J Yue2, D Doll2, M Tomsic2, M D Sumption1, E W Collings1.
Abstract
This study is a contribution to the development of technology for an MgB2-based, cryogen-free, superconducting magnet for an MRI system. Specifically, we aim to demonstrate that a react and wind coil can be made using high performance in-situ route MgB2 conductor, and that the conductor could be operated in conduction mode with low levels of temperature gradient. In this work, an MgB2 conductor was used for the winding of a sub-size, MRI-like coil segment. The MgB2 coil was wound on a 457 mm ID 101 OFE copper former using a react-and-wind approach. The total length of conductor used was 330 m. The coil was epoxy impregnated and then instrumented for low temperature testing. After the initial cool down (conduction cooling) the coil Ic was measured as a function of temperature (15-30 K), and an Ic of 200 A at 15 K was measured.Entities:
Keywords: MRI; Magnet; MgB2 coil; conduction cooling
Year: 2015 PMID: 27857508 PMCID: PMC5109823 DOI: 10.1109/TASC.2015.2514063
Source DB: PubMed Journal: IEEE Trans Appl Supercond