Intermediate Phases in Superconducting Niobium-Tin Alloys

Journal of research of the National Bureau of Standards. Section A, Physics and chemistry Pub Date : 1962-07-01 DOI:10.6028/jres.066A.037

L. Wyman, J. Cuthill, G. Moore, J. J. Park, H. Yakowitz

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引用次数: 15

Abstract

In attempting to produce superconducting wire of the niobium sheath Nb3Sn core type, it became apparent that results were generally unpredictable. Metallographic examination showed that such materials are heterogeneous and contain a number of intermediate phases. Detailed metallographic studies were made on diffusion zones in which tin had been allowed to react with porous niobium blocks, with fused niobium rod, and with niobium wires, and on a number of reacted powder mixtures. The phases produced were identified by anodizing to characteristic colors and by microspot analysis, supplemented by some hot-stage microscope and thermal analysis tests. On the basis of these observations, a tentative revised diagram is offered to illustrate the types of reactions which occur in the system. The presumably desired phase, Nb3Sn, is found to lie between the more easily formed phases Nb4Sn and Nb2Sn3, which are stable to temperatures well above the peritectoid decomposition of the Nb3Sn. At lower temperatures the compound Nb2Sn is formed. It is indicated that the high-temperature treatment to react niobium and tin should be followed either by very slow cooling or by an anneal in the 600 to 700 °C range to form Nb3Sn.

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超导铌锡合金中的中间相

在试图生产铌护套Nb3Sn芯型超导导线时，很明显，结果通常是不可预测的。金相检验表明，这种材料是不均匀的，含有许多中间相。对扩散区进行了详细的金相研究，在扩散区中，锡被允许与多孔铌块、熔融铌棒和铌丝以及许多反应的粉末混合物反应。通过阳极氧化至特征颜色和微斑分析，并辅以热级显微镜和热分析试验，对所生产的相进行了鉴定。在这些观察的基础上，提出了一个暂定的修正图来说明系统中发生的反应类型。假设的理想相Nb3Sn位于Nb4Sn和Nb2Sn3之间，这两个相在远高于Nb3Sn的晶状分解温度下是稳定的。在较低温度下形成化合物Nb2Sn。结果表明，要使铌和锡发生反应，必须进行缓慢冷却或在600 ~ 700℃范围内退火以形成Nb3Sn。

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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Journal of research of the National Bureau of Standards. Section A, Physics and chemistry

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