A Godeke, D V Abraimov, E Arroyo, N Barret, M D Bird, A Francis, J Jaroszynski, D V Kurteva, W D Markiewicz, E L Marks, W S Marshall, D M McRae, P D Noyes, R C P Pereira, Y L Viouchkov, R P Walsh, J M White
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We used stress-strain characterizations, single- and double-bend tests, easy- and hard-way bent coil-turns at various radii, straight and helical samples in up to 31.2 T background field, and small 20-turn coils in up to 17 T background field to systematically determine the electro-mechanical limits in magnet-relevant conditions. In longitudinal tensile tests at 77 K, we found critical stress- and strain-levels of 516 MPa and 0.57%, respectively. In three decidedly different experiments we detected an amplification of the allowable strain with a combination of pure bending and Lorentz loading to ≥ 0.92% (calculated elastically at the outer tape edge). This significant strain level, and the fact that it is multi-filamentary conductor and available in the reacted and insulated state, makes DI-BSCCO HT-NX highly suitable for very high-field solenoids, for which high current densities and therefore high loads are required to retain manageable magnet dimensions.</p>","PeriodicalId":54440,"journal":{"name":"Superconductor Science & Technology","volume":"30 3","pages":""},"PeriodicalIF":3.7000,"publicationDate":"2017-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5367628/pdf/nihms850993.pdf","citationCount":"0","resultStr":"{\"title\":\"A Feasibility Study of High-Strength Bi-2223 Conductor for High-Field Solenoids.\",\"authors\":\"A Godeke, D V Abraimov, E Arroyo, N Barret, M D Bird, A Francis, J Jaroszynski, D V Kurteva, W D Markiewicz, E L Marks, W S Marshall, D M McRae, P D Noyes, R C P Pereira, Y L Viouchkov, R P Walsh, J M White\",\"doi\":\"10.1088/1361-6668/aa5582\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>We performed a feasibility study on a high-strength Bi<sub>2-</sub><i><sub>x</sub></i> Pb <i><sub>x</sub></i> Sr<sub>2</sub>Ca<sub>2</sub>Cu<sub>3</sub>O<sub>10-</sub><i><sub>x</sub></i> (Bi-2223) tape conductor for high-field solenoid applications. 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引用次数: 0
摘要
我们对高强度 Bi2-x Pb x Sr2Ca2Cu3O10-x (Bi-2223) 带状导体进行了可行性研究,该导体适用于高磁场电磁线圈应用。所研究的 DI-BSCCO HT-XX 型导体是 HT-NX 型的预生产版本,住友电气工业(SEI)最近推出了 HT-NX 型。它以 DI-BSCCO H 型带为基础,但采用高强度镍合金层压。我们使用应力-应变特性分析、单弯和双弯测试、各种半径的易弯和硬弯线圈匝数、在高达 31.2 T 背景磁场中的直线和螺旋样品,以及在高达 17 T 背景磁场中的 20 匝小线圈,来系统地确定磁相关条件下的电子机械极限。在 77 K 的纵向拉伸试验中,我们发现临界应力和应变水平分别为 516 MPa 和 0.57%。在三次截然不同的实验中,我们检测到纯弯曲和洛伦兹加载组合的允许应变放大到 ≥ 0.92%(在磁带外边缘弹性计算)。这一显著的应变水平,以及 DI-BSCCO HT-NX 是多丝导体并可在反应和绝缘状态下使用这一事实,使得 DI-BSCCO HT-NX 非常适合用于需要高电流密度和高负载以保持可控磁体尺寸的高磁场螺线管。
A Feasibility Study of High-Strength Bi-2223 Conductor for High-Field Solenoids.
We performed a feasibility study on a high-strength Bi2-x Pb x Sr2Ca2Cu3O10-x (Bi-2223) tape conductor for high-field solenoid applications. The investigated conductor, DI-BSCCO Type HT-XX, is a pre-production version of Type HT-NX, which has recently become available from Sumitomo Electric Industries (SEI). It is based on their DI-BSCCO Type H tape, but laminated with a high-strength Ni-alloy. We used stress-strain characterizations, single- and double-bend tests, easy- and hard-way bent coil-turns at various radii, straight and helical samples in up to 31.2 T background field, and small 20-turn coils in up to 17 T background field to systematically determine the electro-mechanical limits in magnet-relevant conditions. In longitudinal tensile tests at 77 K, we found critical stress- and strain-levels of 516 MPa and 0.57%, respectively. In three decidedly different experiments we detected an amplification of the allowable strain with a combination of pure bending and Lorentz loading to ≥ 0.92% (calculated elastically at the outer tape edge). This significant strain level, and the fact that it is multi-filamentary conductor and available in the reacted and insulated state, makes DI-BSCCO HT-NX highly suitable for very high-field solenoids, for which high current densities and therefore high loads are required to retain manageable magnet dimensions.
期刊介绍:
Superconductor Science and Technology is a multidisciplinary journal for papers on all aspects of superconductivity. The coverage includes theories of superconductivity, the basic physics of superconductors, the relation of microstructure and growth to superconducting properties, the theory of novel devices, and the fabrication and properties of thin films and devices. It also encompasses the manufacture and properties of conductors, and their application in the construction of magnets and heavy current machines, together with enabling technology.
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