3T动物磁共振成像传导冷却超导磁体研究  被引量：12

作　　者：陈顺中[1,2] 王秋良 孙万硕[1,2] 孙金水 程军胜 Chen Shunzhong;Wang Qiuliang;Sun Wanshuo;Sun Jinshui;Cheng Junsheng(Institute of Electrical Engineering Chinese Academy of Sciences,Beijing 100190 China;University of Chinese Academy of Sciences,Beijing 100049 China)

机构地区：[1]中国科学院电工研究所,北京100190 [2]中国科学院大学,北京100049

出　　处：《电工技术学报》2023年第4期879-888,共10页Transactions of China Electrotechnical Society

基　　金：国家重大科研仪器研制项目(51827810);北京市科技计划课题项目(Z191100002019019)资助。

摘　　要：磁共振成像(MRI)是目前最先进的医学影像技术之一。动物磁共振成像以动物为研究对象,广泛用于生命科学研究、医学研究及药物机理研究。为了发展小型化、低成本的动物磁共振成像系统,该文采用传导冷却技术研制了一台3 T动物磁共振成像超导磁体。采用线性规划和非线性规划相结合的方法设计了一种主动屏蔽型磁体结构,其包含同轴排列的6个主线圈和2个屏蔽线圈。研究一种包含了分段和失超传播加速策略的被动失超保护方法保护超导磁体免于意外失超造成的损害。低温系统使用一台双极G-M制冷机直接将超导磁体从室温冷却到工作温度,无需液氦。超导磁体在直径φ180 mm的球形区域(DSV)产生高均匀度磁场用于成像。实验结果显示,超导磁体经历5次失超后被励磁到3.001 3 T,经测量φ180 mm的DSV磁场峰-峰值不均匀度(H_(p2p))约为1.33×10^(-2)%。该文详细介绍了超导磁体的电磁设计、应力分析、失超保护设计,低温设计、建造及测试结果。Magnetic resonance imaging (MRI) is one of the most advanced imaging techniques and is widely used in clinical diagnosis and basic life science research,with advantages including noninvasiveness,high/multiple soft tissue contrast,parametric imaging,and the richness of information.Animal MRI which takes animals as the research object is widely used in life science research,medical research,and drug mechanism research.The superconducting magnet system which is usually adopted the cryogenic technology of bath-cooling with 4.2 K liquid helium is one of the core components of the MRI system.Since liquid helium (LHe) is a costly nonrenewable resource with a diminishing reserve and the prices have kept steadily increasing,a 3 T superconducting magnet adopting conduction-cooled technology that does not require LHe was developed for small-size and low-cost animal MRI systems.An active-shielded magnet structure composed of six main coils and two shielding coils arranged coaxially was designed by using both linear programming and nonlinear programming algorithm.The magnet produces a3 T central magnetic field in a φ330 mm warm bore with theoretical homogeneity of 12×10^(-4)%in a φ180mm DSV.In order to adapt to the condition that the coil’s temperature may be higher than 4.2 K in a conduction-cooled system,sufficient current-sharing temperature margins are reserved in the magnet design.The minimum current-sharing temperature margin is 2.05 K in coils 1 and 6.A finite element analysis on the stress in the magnet was carried out by using averaged model in which mechanical characteristics of the elements are averaged on different material components.We can see that the maximum hoop stress in the magnet is about40.9 MPa which is located at coils 3 and 4,indicating that the magnet design is safe.A passive protection method based on coil subdivision and quench propagation acceleration is a study to protect the magnet from damage caused by a quench.The superconducting coils are divided into three subdivisions to restrict the pe

关 键 词：磁共振成像 超导磁体 传导冷却 失超保护 低温系统 

分 类 号：R445.2[医药卫生—影像医学与核医学]