Effects of differently hardened brass foil laminate on the electromechanical property of externally laminated CC tapes

IF 0.2 Q4 PHYSICS, APPLIED

Progress in Superconductivity and Cryogenics Pub Date : 2016-12-31 DOI:10.9714/PSAC.2016.18.4.021

Z. Bautista, H. Shin, B. Mean, Jae-Hun Lee

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Abstract

The mechanical properties of REBCO coated conductor (CC) wires under uniaxial tension are largely determined by the thick component layers in the architecture, namely, the substrate and the stabilizer or even the reinforcement layer. Depending on device applications of the CC tapes, it is necessary to reinforce thin metallic foils externally to one-side or both sides of the CC tapes. Due to the external reinforcement of brass foils, it was found that this could increase the reversible strain limit from the Cu-stabilized CC tapes. In this study, the effects of differently hardened brass foil laminate on the electromechanical property of CC tapes were investigated under uniaxial tension loading. The tensile strain dependence of the critical current ( I c ) was measured at 77 K and self-field. Depending on whether the I c of CC tapes were measured during loading or after unloading, a reversible strain (or stress) limit could be determined, respectively. The both-sides of the Cu-stabilized CC tapes were laminated with brass foils with different hardness, namely 1/4H, 1H and EH. From the obtained results, it showed that the yield strength of the brass laminated CC tapes with EH brass foil laminate was comparable to the one of the Cu-stabilized CC tape due to its large yield strength even though its large volume fraction. It was found that the brass foil with different hardness was mainly sensitive on the stress dependence of I c , but not on the strain sensitivity due to the residual strain induced in the laminated CC tapes during unloading.

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不同硬化铜箔层对外压CC带机电性能的影响

REBCO涂层导体(CC)导线在单轴拉伸下的力学性能在很大程度上取决于结构中较厚的组件层，即衬底和稳定剂甚至增强层。根据CC胶带的设备应用，有必要在CC胶带的一侧或两侧外部加强薄金属箔。由于黄铜箔的外部增强，这可以提高cu稳定CC带的可逆应变极限。在单轴拉伸载荷下，研究了不同硬化程度的黄铜箔层对CC胶带机电性能的影响。在77 K和自场下测量了临界电流(I c)与拉伸应变的关系。根据CC胶带在加载时或卸载后的icc测量，可以分别确定可逆应变(或应力)极限。在cu稳定CC带的两侧分别镀上不同硬度的铜箔，分别为1/4H、1H和EH。结果表明，EH铜箔层合的黄铜复合CC带在体积分数较大的情况下，其屈服强度与cu稳定CC带相当。结果表明，不同硬度的黄铜箔主要对icc的应力依赖性敏感，而对卸载过程中CC片残余应变的应变敏感性不敏感。

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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来源期刊

Progress in Superconductivity and Cryogenics PHYSICS, APPLIED-

CiteScore

0.40

自引率

33.30%

发文量

期刊介绍： Progress in Superconductivity and Cryogenics is the official publication of The Korea Institute of Applied Superconductivity and Cryogenics and the Korean Superconductivity Society. It was launched in 1999, and accepts original research articles and review papers on research on superconductivity and related fields of physics, electronic devices, materials science, large-scale applications for magnets, power and energy, and cryogenics. The Journal is published quarterly in March, June, September, and December each year. Supplemental issues are published occasionally. The official title of the journal is ''Progress in Superconductivity and Cryogenics'' and the abbreviated title is ''Prog. Supercond. Cryog.'' All submitted manuscripts are peer-reviewed by two reviewers. The text must be written in English. All the articles in this journal are KCI and SCOPUS as of 2015. The URL address of the journal is http://psac.kisac.org where full text is available. This work was supported by the Korean Federation of Science and Technology Societies grant funded by the Korea government.