以Bi2Sr2CaCu2O8+x为原料制备适合超导导线的高临界电流密度针状晶粒

O. Cabeza, O. Barca, F. Miguélez
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摘要

我们研究了Bi(2212)的晶粒微观结构,仅由长约1.5 mm、直径约100 μm的巨大针状晶粒组成。我们研究了传统的Bi(2212)陶瓷样品在获得巨大针状晶粒的热处理过程中所遭受的结构和化学变化。为此,对同一批次的不同样品进行不完全热处理,并用扫描电子显微镜(SEM)、光学显微镜、能谱仪(EDS)、电感耦合等离子体(ICP)和x射线衍射仪(XRD)对所得样品进行分析。为了验证针状颗粒的超导性质,我们对原始陶瓷样品进行了磁化、电阻率和临界电流测量,并对形成巨大针状颗粒的陶瓷样品进行了测量。这些最后晶粒的临界温度几乎与陶瓷样品(Tc ~ 90k)相同,这是Bi(2212)化合物的高值。针状晶粒的临界电流密度(Jc)在77 K和没有外加磁场的情况下约为2500 A/cm2,与最佳导线和厚膜的临界电流密度相当。不仅这些晶粒的形状和尺寸非常适合制作超导导线,而且超导性能Tc和Jc都足够高,使我们有信心改进实际的Bi(2212)超导导线,用于大电流应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of needle-shaped grains from Bi2Sr2CaCu2O8+x with high critical current density suitable for making superconducting wires

We present a grain microstructure for Bi(2212) consisting of only giant needle-shaped grains of around 1.5 mm length and 100 μm diameter. We study the structural and chemical changes suffered by a conventional ceramic Bi(2212) sample in the course of the thermal treatment used to obtain those giant needle-shaped grains. For that, different samples of the same batch were treated with incomplete thermal treatments, and the resulting samples were analysed by using scanning electron microscopy (SEM), optical microscopy, energy dispersed spectroscopy (EDS), inductively coupled plasma (ICP) and X-ray diffraction (XRD). To verify the superconducting nature of the needle-shaped grains, we have performed magnetization, resistivity, and critical current measurements on the original ceramic sample, and on that formed as giant needle-like grains. The critical temperature of these last grains is nearly the same as that of the ceramic sample (Tc∼90 K), which is a high value for the Bi(2212) compound. The critical current density (Jc) of the needle-shaped grains is around 2500 A/cm2 at 77 K and in absence of applied magnetic field, a value comparable with that presented for the best wires and thick films. Not only are the shape and the size of these grains very suitable for making superconducting wires, but also the superconducting properties, Tc and Jc, are both high enough to be confident about the possibility of improving the actual Bi(2212) superconducting wires for high current applications.

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