利用三维数值模型分析多层 CORC 电缆在高外电场中的机械行为

IF 1.3 3区物理与天体物理 Q4 PHYSICS, APPLIED

Physica C-superconductivity and Its Applications Pub Date : 2024-05-02 DOI:10.1016/j.physc.2024.1354501

Shouhong Shan , Huadong Yong , Youhe Zhou

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引用次数: 0

摘要

高磁场中机械变形导致的临界电流衰减对高温超导（HTS）结构的性能影响深远。多层圆芯导体（CORC）电缆是工程中广泛应用的一种 HTS 结构。由于多层 CORC 电缆的复杂性，在模拟高场强下的机械行为时，应考虑带子之间的接触。本文建立了三维电磁和机械模型来研究多层 CORC 电缆的机械行为。在相同的电磁力下，比较了采用不同接触方法的 5 层 CORC 电缆的机械模型。随后，分别讨论了外部磁场和传输电流的加载路径、CORC 电缆的弯曲几何形状、CORC 电缆中 HTS 带的缠绕方向以及屏蔽电流对力学行为的影响。数值结果有助于 CORC 电缆在高磁场中的设计和运行。

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Mechanical behavior of multi-layer CORC cable in high external field with 3D numerical model

The degradation of critical current due to mechanical deformation in a high field has a profound impact on the performance of high-temperature superconducting (HTS) structures. The multi-layer conductor on round core (CORC) cable is a widely-applied HTS structure in engineering. Due to the complexity of the multi-layer CORC cable, the contact between the tapes should be considered when simulating the mechanical behavior in high field. In this paper, 3D electromagnetic and mechanical models were developed to investigate the mechanical behavior of the multi-layer CORC cable. Under the same electromagnetic force, the comparisons of mechanical models of a 5-layer CORC cable with different contact methods are presented. Subsequently, the effects of the loading path of the external magnetic field and transport current, the bending geometry of the CORC cable, the winding direction of the HTS tape in the CORC cable, and the shielding current on the mechanical behavior are discussed, respectively. The numerical results are useful for the design and operation of CORC cable in high field.

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来源期刊

Physica C-superconductivity and Its Applications 物理-物理：应用

CiteScore

2.70

自引率

11.80%

发文量

102

审稿时长

66 days

期刊介绍： Physica C (Superconductivity and its Applications) publishes peer-reviewed papers on novel developments in the field of superconductivity. Topics include discovery of new superconducting materials and elucidation of their mechanisms, physics of vortex matter, enhancement of critical properties of superconductors, identification of novel properties and processing methods that improve their performance and promote new routes to applications of superconductivity. The main goal of the journal is to publish: 1. Papers that substantially increase the understanding of the fundamental aspects and mechanisms of superconductivity and vortex matter through theoretical and experimental methods. 2. Papers that report on novel physical properties and processing of materials that substantially enhance their critical performance. 3. Papers that promote new or improved routes to applications of superconductivity and/or superconducting materials, and proof-of-concept novel proto-type superconducting devices. The editors of the journal will select papers that are well written and based on thorough research that provide truly novel insights.