[低温] 超导磁体;超导磁铁
The design, construction and test of a superconducting magnet consisting two asymmetric split coils for diffusion of inelastic and polarizing neutron are presented.
本文介绍用于中子扩散实验的、由两个非对称螺管线圈组成的超导磁体的设计、制造和实验工作。
With the research and development of superconducting technique and refrigerating technique , the superconducting magnet system has more and more application at present .
随着超导技术和制冷技术的相互促进和共同发展,超导磁体系统已得到越来越广泛的应用。
The stability parameters of superconducting tape can be measured by this system, and this work can be of real significance in the design and protection of superconducting magnet.
该系统可对超导带材的稳定性参数进行测试,这对研究超导磁体的设计和失超保护具有重要的实际意义。
The structures and the design of ITER superconducting feeder system, which is an important reference to the feeder design for other superconducting magnet system, are described.
介绍了国际热核试验堆超导馈线系统的结构及设计情况,为同类型超导磁体的馈线设计提供了有益的参考。
In this article, a dewar for this superconducting magnet system is mainly described and experimental results about boil-off rate of the LHe under the condition of rotation and vibration is presented.
本文将主要描述该系统的杜瓦部分,并且给出在旋转和振动条件下的液氦挥发实验结果。
The power supply is an important part of the superconducting magnet system , it affords both steady current and reliable protection for the superconducting magnet system .
电流源及保护控制系统是超导磁体系统的重要组成部分,其主要任务是为超导磁体系统提供稳定电流并实现可靠的保护控制。
With the advancing technology in superconducting magnet, strong magnetic field has found more and more applications in scientific researches and industrial manufacturing.
近年来,随着超导磁体技术的进步,围绕与强磁场条件相关的应用得到迅速发展。
The present paper summarizes the design, development and test of the D3 superconducting magnet of the toroidal magnet system of the 6D superconducting tokamak.
本文总结了6D超导托卡马克环形磁体系统的D_3超导磁体的设计,研制与试验工作。
The magnetic Kelvin force generated by a superconducting magnet system can damp the natural convection during crystal growth and thus the crystal quality can be improved.
超导磁体系统产生的磁场力可抑制晶体生长过程中的自然对流,从而提高晶体结晶质量。
It presents a study of d. c. power supply unit for superconducting magnet.
本文叙述了超导磁体电源研制的方法。
Conclusions: The contrast effect of low field permanent magnet type MRCP is the same with moderate and high field superconducting magnet type and similar in clinical application value.
结论低场强永磁型磁共振MRCP与中高场强的超导型磁共振MRCP同样具有很好的造影效果和同样的临床应用价值。
The converter in superconducting magnetic energy storage (SMES) connects the superconducting magnet and the power system, and provides a path for the electrical power transmission between them.
在超导储能系统中换流器与电网相连,使超导储能磁体能够通过换流器与电网进行能量交换,从而实现电网谐波抑制、有功无功补偿等功能。
With the unusual characters of superconductivity technology, superconducting magnet has been widely used in physics, chemistry, and biomedicine and other research fields.
超导磁体由于其独特的优越性被广泛应用在物理、化学、生物医学等领域。
Superconducting magnet's characteristic is that it can produce strong magnetic field in large area with the low supplied power, and the field keeps constant at the superconducting condition.
超导磁体可以在较大的空间内产生高磁场,而所需的励磁功率却很小,且在超导条件下,磁场保持恒定。
The basis components and the experiment of 35kJ conduction-cooled high Tc superconducting magnet in China is described.
介绍了直接冷却高温超导储能磁体的基本结构。
This paper analyses the superconducting magnet reinforcement and proposes the available methods.
在上述研究基础上,对磁体加固方法进行了分析并提出了改进措施。
Presented in this paper are the basic design principles of the model JWL-150A superconducting magnet power supply, its SCR automatic protection system, and its performance data.
本文介绍了该电源的基本设计原理及性能指标,同时对可控硅自动保护系统作了详细地阐述。
The SMES system is composed of superconducting magnet, cooling system , power conditioning system and monitored control system.
该系统主要由超导磁体、低温系统、功率调节系统和监控系统组成。
The stability of a liquid helium free superconducting magnet could be analyzed using the adiabatic stability criterion because there is no cryogen in the system.
制冷机直接冷却的超导磁体,没有冷却介质,因此,用绝热稳定化判据分析其稳定性是合适的。
According to experiment result of high temperature superconducting magnet cooled with G-M refrigerator, we researched its key technology problem.
根据高温超导磁体冷却的实验结果,研究了G-M制冷机在磁储能直接冷却应用中的关键技术问题。
The current source is an important section of the superconducting magnet system. It affords both of the steady current and reliable protection for the superconducting magnet system.
电流源保护控制系统是超导磁体系统的重要组成部分,其主要作用是为超导磁体系统提供稳定电流并实现可靠的保护控制。
Superconducting magnet system for MHD propulsion research project has been constructed and tested successfully.
本文简单介绍了磁流体船舶推进用超导磁体系统的研制及实验结果。
Experience in superconducting magnet tests or complex electronic equipment system tests is desired.
在超导磁体测试和复杂电子设备系统测试方面拥有工作经验。
A large MHD superconducting magnet consists of a saddle coil, a bore tube, fibreglass epoxy filler and polyester plastics banding and 321 stainless steel banding.
大型MHD磁体是由鞍型超导线圈、不锈钢芯筒、玻璃钢填充体、层间绝缘绑扎带和扁钢带等组成的非均匀不连续体。
Superconducting magnet;
超导磁体;
The calculation shows that the pressure drops and the temperature decreases, but the gas rate increases from liquid helium main dewar to superconducting magnet dewar.
计算结果表明,氦工质从液氦主杜瓦加注到磁体杜瓦的过程中,其压力和温度不断降低,而含气量不断增加。
超导磁体(superconducting magnet)是一种利用超导材料在低温环境下产生强磁场的装置。其核心原理基于超导体在临界温度以下电阻为零的特性,允许电流持续流动而不产生能量损耗,从而实现高效、稳定的磁场生成。
工作原理与材料特性
超导磁体的工作依赖迈斯纳效应和零电阻效应。当超导材料(如铌钛合金Nb-Ti或铌锡化合物Nb₃Sn)冷却至液氦温度(约4.2K)时,外部磁场会被完全排出材料外部,同时内部电流可无限循环。这种特性使其能够产生高达20特斯拉以上的强磁场,远超常规电磁铁的性能极限。
主要应用领域
技术挑战与发展
当前研究聚焦于高温超导材料(如钇钡铜氧YBCO),这类材料可在液氮温区(77K)实现超导,显著降低冷却成本。2023年,麻省理工学院团队成功研发出18特斯拉高温超导磁体,为核聚变装置小型化提供了新方向。
superconducting magnet(超导磁体)是由超导材料制成的磁体,能够在极低温度下实现零电阻导电,从而产生高强度稳定磁场。以下是详细解释:
如需进一步了解超导材料分类或具体应用场景,可参考相关学术文献或专业资料。
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