超导体扩散势垒用钽片

Advances in cryogenic engineering Pub Date : 2006-04-21 DOI:10.1063/1.2192399

S. Mathaudhu, K. Hartwig, R. E. Barber, T. Pyon

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引用次数: 3

摘要

本报告介绍了一个项目的初步结果，该项目旨在制造具有均匀微观结构的细晶钽片，其与纯铜的共变形良好，用于超导扩散屏障应用。采用多道次等径角挤压法(ECAE)细化了25 mm方截面Ta棒材的微观结构;用轧制将棒材转化为0.38毫米厚的薄板。通过组装和拉伸含有ECAE加工板材的实验Cu - Ta复合丝至0.83 mm直径，并对薄的2-4微米的Ta层进行金相检查，评估了Cu - Ta共变形特性。ECAE可以很好地处理Ta片与Cu的共变形，并且发现与商业扩散屏障级Ta片相比，Ta片具有更小的再结晶晶粒尺寸，更窄的晶粒尺寸分布和稍高的硬度。良好的结果鼓励进一步的工作。

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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Tantalum Sheet for Superconductor Diffusion Barrier Applications

This report presents preliminary results of a project with the aim to fabricate fine‐grained tantalum sheet having a uniform microstructure that co‐deforms well with pure copper for superconductor diffusion barrier applications. Multi‐pass equal channel angular extrusion (ECAE) was used to refine the microstructure of 25 mm square cross‐section bars of Ta; rolling was used to convert the bars to 0.38 mm thick sheet. Cu‐Ta co‐deformation characteristics were evaluated by assembling and drawing experimental Cu‐Ta composite wires, containing the ECAE processed sheets, to 0.83 mm diameter and metallographically examining the thinned 2–4 micron Ta layer. The ECAE processed Ta sheet co‐deformed well with Cu, and was found to have a smaller recrystallized grain size, a narrower grain size distribution and a slightly higher hardness compared to commercial diffusion barrier grade Ta sheet. The favorable results encourage further work.

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Advances in cryogenic engineering

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