前驱粉末装管法(PIT)是目前铋系高温超导带材制备的主要方法。
Presently powder in tube process (PIT) is the main method to fabricate bismuth system HTS tapes.
中文摘要本文对高温超导带材在工频过电流冲击下的性能进行了研究。
In this paper, the performances of HTS tapes under over-current were systematically investigated.
各种不同直径的复合丝轧制成的超导带,都有一临界电流最高的厚度范围。
To the tapes made from composit silk with different diameter, there is a thickness range in which Jc is higher.
高温超导带材的临界电流在77K不同磁场大小和方向上相差很大,表现出强烈的各向异性。
There is great difference of critical current in HTS tapes under the magnetic field with different magnitude and oritations at 77K, which shows strongly anisotropy of critical current.
建立了导热冷却条件下的超导带失超模型,用数值模拟的方法来研究超导带的失超传播特性。
The quench model under the condition of conduction cooling system was established and the quench propagation properties were studied by using numerical simulation method.
磁测量能更准确、更全面的反映带材的本征特性,是今后高温超导带材性能测试的重要方法。
The magnetic strength measurement can reflect the tape′s original characteristic more accurately and more entirely, which is the important method for the measurement of High Tc tape′s properties.
要工程化生产超导带材,需要运行成本低,产品质量高,生产批量大,稳定可靠的粉末生产工艺。
If we mass produced HTS tapes, we should possess a powder preparation process which ran with low cost, which is stable and reliable, whose product have high quality and large mass.
该系统可对超导带材的稳定性参数进行测试,这对研究超导磁体的设计和失超保护具有重要的实际意义。
The stability parameters of superconducting tape can be measured by this system, and this work can be of real significance in the design and protection of superconducting magnet.
研究了110K铋基高温超导轧制带相分解的规律。
Phase decomposition of 110K phase of Bi—based high—Tc superconducting tape is investigated.
相对于传统滤波器,高温超导滤波器具有带内插损小,带边陡峭,体积小、易于集成等优点。
In contrast with the conventional filters, HTS filters provided many advantages, such as much less insert loss, more steep edge, smaller size and easier integration.
建立了超导复合带材的细观力学假设和模型、以及成型过程的有限元分析模型。
The mechanical hypothesis and geometry model of the composite tapes were set up. The finite element analysis models in the process of the composite tapes' shaping were established.
超导筒由带狭缝的超导厚膜筒及位于狭缝间并与超导厚膜筒相连的超导微桥组成。
The superconducting cylinder consists of superconducting thick-film cylinder with narrow crevice and superconducting micro-bridge connected to the former.
超导筒由带狭缝的超导厚膜筒及位于狭缝间并与超导厚膜筒相连的超导微桥组成。
The superconducting cylinder consists of superconducting thick-film cylinder with narrow crevice and superconducting micro-bridge connected to the former.
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