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本文引用的文献

1
Development of a 3 T-250 mm Bore MgB Magnet System.3T-250毫米孔径镁硼磁体系统的研制。
IEEE Trans Appl Supercond. 2015 Jun;25(3). doi: 10.1109/TASC.2014.2364396. Epub 2014 Oct 22.
2
Monofilament MgB Wire for a Whole-Body MRI Magnet: Superconducting Joints and Test Coils.用于全身核磁共振成像磁体的单丝MgB线:超导接头和测试线圈。
IEEE Trans Appl Supercond. 2013 Jun;23(3). doi: 10.1109/tasc.2012.2234183. Epub 2012 Dec 20.
3
MgB Coils for MRI Applications.用于磁共振成像(MRI)应用的镁硼(MgB)线圈
IEEE Trans Appl Supercond. 2010 Jun;20(3):756-759. doi: 10.1109/TASC.2010.2044035. Epub 2010 Apr 19.
4
MgB for MRI Magnets: Test Coils and Superconducting Joints Results.用于MRI磁体的MgB:测试线圈和超导接头的结果。
IEEE Trans Appl Supercond. 2012 Jun;22(3). doi: 10.1109/TASC.2012.2185472. Epub 2012 Mar 5.
5
Influence of Twisting and Bending on the and -value of Multifilamentary MgB Strands.扭转和弯曲对多丝MgB股线的 和 值的影响。 需注意,原文中“ 和 -value”表述不太完整准确,可能存在信息缺失。
Physica C Supercond. 2015 Dec 15;519:118-123. doi: 10.1016/j.physc.2015.10.002. Epub 2015 Oct 23.
6
Magnetic field dependent stability and quench behavior and degradation limits in conduction-cooled MgB wires and coils.传导冷却的MgB导线和线圈中磁场相关的稳定性、失超行为及退化极限
Supercond Sci Technol. 2015 Mar 1;28(3). doi: 10.1088/0953-2048/28/3/035015.
7
Internally oxidized Nb₃Sn strands with fine grain size and high critical current density.具有细晶粒尺寸和高临界电流密度的内氧化 Nb₃Sn 丝。
Adv Mater. 2015 Feb 25;27(8):1346-50. doi: 10.1002/adma.201404335. Epub 2015 Jan 12.
8
A 0.6 T/650 mm RT Bore Solid Nitrogen Cooled MgB Demonstration Coil for MRI-a Status Report.用于磁共振成像的0.6特斯拉/650毫米内径固体氮冷却镁硼示范线圈——现状报告
IEEE Trans Appl Supercond. 2006 Jun;16(2):1427-1430. doi: 10.1109/TASC.2005.864456.
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AAPM medical physics practice guideline 1.a: CT protocol management and review practice guideline.AAPM 医学物理实践指南 1.a:CT 协议管理和审查实践指南。
J Appl Clin Med Phys. 2013 Sep 6;14(5):3-12. doi: 10.1120/jacmp.v14i5.4462.
10
Active Protection of an MgB(2) Test Coil.MgB₂ 测试线圈的主动保护。
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用于1.5和3.0T全身MRI系统的传导冷却MgB2磁体的概念设计。

Conceptual designs of conduction cooled MgB2 magnets for 1.5 and 3.0T full body MRI systems.

作者信息

Baig Tanvir, Al Amin Abdullah, Deissler Robert J, Sabri Laith, Poole Charles, Brown Robert W, Tomsic Michael, Doll David, Rindfleisch Matthew, Peng Xuan, Mendris Robert, Akkus Ozan, Sumption Michael, Martens Michael

机构信息

Department of Physics, Case Western Reserve University, Cleveland, OH, United States of America.

Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OH, United States of America.

出版信息

Supercond Sci Technol. 2017 Apr;30(4). doi: 10.1088/1361-6668/aa609b. Epub 2017 Mar 9.

DOI:10.1088/1361-6668/aa609b
PMID:29170604
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5695883/
Abstract

Conceptual designs of 1.5 and 3.0 T full-body magnetic resonance imaging (MRI) magnets using conduction cooled MgB superconductor are presented. The sizes, locations, and number of turns in the eight coil bundles are determined using optimization methods that minimize the amount of superconducting wire and produce magnetic fields with an inhomogeneity of less than 10 ppm over a 45 cm diameter spherical volume. MgB superconducting wire is assessed in terms of the transport, thermal, and mechanical properties for these magnet designs. Careful calculations of the normal zone propagation velocity and minimum quench energies provide support for the necessity of active quench protection instead of passive protection for medium temperature superconductors such as MgB. A new 'active' protection scheme for medium based MRI magnets is presented and simulations demonstrate that the magnet can be protected. Recent progress on persistent joints for multifilamentary MgB wire is presented. Finite difference calculations of the quench propagation and temperature rise during a quench conclude that active intervention is needed to reduce the temperature rise in the coil bundles and prevent damage to the superconductor. Comprehensive multiphysics and multiscale analytical and finite element analysis of the mechanical stress and strain in the MgB wire and epoxy for these designs are presented for the first time. From mechanical and thermal analysis of our designs we conclude there would be no damage to such a magnet during the manufacturing or operating stages, and that the magnet would survive various quench scenarios. This comprehensive set of magnet design considerations and analyses demonstrate the overall viability of 1.5 and 3.0 T MgB magnet designs.

摘要

本文介绍了采用传导冷却MgB超导体的1.5 T和3.0 T全身磁共振成像(MRI)磁体的概念设计。通过优化方法确定了八个线圈组的尺寸、位置和匝数,该方法可使超导线材用量最小化,并在直径45 cm的球形体积内产生不均匀性小于10 ppm的磁场。针对这些磁体设计,从传输、热和机械性能方面对MgB超导线材进行了评估。对正常区传播速度和最小失超能量的仔细计算,为采用主动失超保护而非被动保护(如针对MgB这类中温超导体)的必要性提供了支持。提出了一种用于中温MRI磁体的新型“主动”保护方案,模拟结果表明该磁体能够得到保护。介绍了多丝MgB导线持久接头的最新进展。对失超过程中的失超传播和温度上升进行的有限差分计算得出结论,需要进行主动干预以降低线圈组中的温度上升,并防止超导体受损。首次针对这些设计,对MgB导线和环氧树脂中的机械应力和应变进行了全面的多物理场和多尺度分析及有限元分析。通过对我们设计的机械和热分析,我们得出结论,这样的磁体在制造或运行阶段不会受到损坏,并且能够在各种失超情况下存活。这组全面的磁体设计考量和分析证明了1.5 T和3.0 T MgB磁体设计的整体可行性。