采用气固反应路线加工的高性能、先进的内镁渗透(AIMI) MgB2丝。

IF 3.7 1区物理与天体物理 Q2 PHYSICS, APPLIED Superconductor Science & Technology Pub Date : 2020-09-01 Epub Date: 2020-07-20 DOI:10.1088/1361-6668/ab9ef1

Fang Wan, Michael D Sumption, Matthew A Rindfleisch, C J Thong, Michael J Tomsic, Edward W Collings

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引用次数: 5

摘要

采用镁浸渍法制备的MgB2超导线的性能优于原位或非原位混合粉末制备的MgB2超导线。事实上，在4.2 K, 10 T的情况下，单核MgB2导线中发现了非常高的jc层和全链je(每总链横截面的临界电流)超过104 A cm-2。然而，由于部分反应和不均匀的MgB2层，以前的多芯渗透路径线尚未达到其je的潜力。本研究表明，采用低温路线加工的18芯MgB2 AIMI导线由于具有更均匀的MgB2反应层，可以获得更高更均匀的J e值。完全反应的形成，均匀的MgB2层归因于从液体-固体到蒸汽-固体反应路线的转换。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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High performance, advanced-internal-magnesium-infiltration (AIMI) MgB₂ wires processed using a vapor-solid reaction route.

MgB2 superconducting wires made using a Mg infiltration method have reached a higher performance than either in-situ or ex-situ mixed powder based routes. Indeed, very high layer Jc coupled with whole-strand Je (critical current per total strand cross section) exceeding 104 A cm−2 at 4.2 K, 10 T have been found for monocore MgB2 wires. However, previous multicore infiltration route wires have not reached their potential for Je due to partially reacted and non-uniform MgB2 layers. This study shows that 18-core MgB2 AIMI wires processed using a low temperature route can attain higher and more uniform Je values due to a more uniform MgB2 reaction layer. The formation of fully reacted, uniform MgB2 layers is attributed to the switch from a liquid-solid to a vapor-solid reaction route.

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来源期刊

Superconductor Science & Technology 物理-物理：凝聚态物理

CiteScore

6.80

自引率

27.80%

发文量

227

审稿时长

3 months

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.