DEGRADATION AND FLUX JUMPING IN SOLENOIDS OF HEAT-TREATED Nb-25% Zr WIRE

Chandrasekhar, B. S.; Mallick, G. T.

doi:10.1063/1.1753877

Cited by 39 publications

(4 citation statements)

References 1 publication

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“…早在20世纪60年代末, 人们采用NbZr低温超导材料 [6] , 并对使用内冷式导体(internally cooled conductor, ICS)绕制的超导磁体进行了研究 [7,8] . ICS是将 NbZr超导线焊接在铜管外侧, 其内部通有液氦, 通过接触传热的方式使超导股线降温达到超导态 [9] . 这种冷却方式效率低下, 超导材料很容易发生磁通跳跃致使磁体系统失超.…”

Section: 个中心螺线管模块(Central Solenoid Cs)、18个环向场unclassified

Research progress on the mechanical behavior of the cable in conduit conductor for the international thermonuclear experimental reactor project

2017

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Section: 个中心螺线管模块(Central Solenoid Cs)、18个环向场unclassified

Research progress on the mechanical behavior of the cable in conduit conductor for the international thermonuclear experimental reactor project

2017

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“…on single wires [32], and has been identified and associated with degradation in solenoids [33]. The phenomenon occurs when the energy liberated in flux creep, or more generally when the energy liberated by any fluctuation associated with flux motion, exceeds the heat-dissipating capabilities of the material.…”

Section: B Superconductors Type IImentioning

confidence: 99%

“…Through several recent investigations it is becoming increasingly clear that flux jump phenomena [33,49] (see section 3) are very closely related to the degradation effect [50].…”

Section: Development Of Superconducting Coilsmentioning

confidence: 99%

Superconducting magnet coils for thermonuclear research

Gauster

Freeman

1964

Nucl. Fusion

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This paper reviews the present state of development of high-field superconductivity with particular regard to the prospective use of that phenomenon in magnet coils for thermonuclear research. It is concluded that although magnets for thermonuclear research are not yet practical, their development is advancing rapidly to the stage of feasibility for that purpose. Progress at present is dependent upon the achievement of a greater understanding of the basic and applied science of superconductivity and the development of materials less susceptible to a phenomenon known as "flux jumping." A review of the present state of scientific knowledge pertinent to large-magnet technology is provided.

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“…Subsequently, the superconducting magnets were wound with the structure of an internally cooled conductor (ICS) [4]. The superconducting strand is cooled to the superconducting state by the heat transfer copper tube with liquid helium in it [5]. But, the contact cooling method of ICS is inefficient, and the superconducting material is inclined to have a magnetic flux jump which will make the magnetic system to be quenched.…”

Section: Introductionmentioning

confidence: 99%

The Mechanical Behavior of the Cable-in-Conduit Conductor in the ITER Project

Yue¹,

Zhang²,

Zhou³

2019

Nuclear Fusion - One Noble Goal and a Variety of Scientific and Technological Challenges

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Cable-in-conduit conductor (CICC) has wide applications, and this structure is often served to undergo heat force-electromagnetic coupled field in practical utilization, especially in the magnetic confinement fusion (e.g., Tokamak). The mechanical behavior in CICC is of relevance to understanding the mechanical response and cannot be ignored for assessing the safety of these superconducting structures. In this chapter, several mechanical models were established to analyze the mechanical behavior of the CICC in Tokamak device, and the key mechanical problems such as the equivalent mechanical parameters of the superconducting cable, the untwisting behavior in the process of insertion, the buckling behavior of the superconducting wire under the action of the thermo-electromagnetic static load, and the Tcs (current sharing temperature) degradation under the thermo-electromagnetic cyclic loads are studied. Finally, we summarize the existing problems and the future research points on the basis of the previous research results, which will help the related researchers to figure out the mechanical behavior of CICC more easily.

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DEGRADATION AND FLUX JUMPING IN SOLENOIDS OF HEAT-TREATED Nb-25% Zr WIRE

Cited by 39 publications

References 1 publication

Research progress on the mechanical behavior of the cable in conduit conductor for the international thermonuclear experimental reactor project

Research progress on the mechanical behavior of the cable in conduit conductor for the international thermonuclear experimental reactor project

Superconducting magnet coils for thermonuclear research

The Mechanical Behavior of the Cable-in-Conduit Conductor in the ITER Project

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