在高温超导变压器电磁场分析的基础上,计算了高温超导线圈的电磁力。
BASED on the magnetic field analysis of high temperature superconducting Transformer, the magnetic forces suffered by high temperature superconducting windings were calculated.
不同于低温超导体,在高温超导线圈中,一定体积内的热积累是造成失超的较主要原因。
Unlike the low temperature superconductors, heat accumulation in a specific volume is more likely the main cause of quenches for the high temperature superconductive (HTS) coils.
在本文中,我们通过数值求解,作出了在大电流冲击条件下高温超导线圈的热稳定边界。
In this paper, the thermal stability of the HTS coil against pulsed high current shock is evaluated numerically.
经分析比较,提出了一种用高温超导线圈和常导线圈构成的混合式电磁吸力型悬浮系统方案。
This paper presents a new suspension system with hybrid electromagnets made of high temperature superconductor and normal conductor coil.
经分析比较,提出了一种用高温超导线圈和常导线圈构成的混合式电磁吸力型悬浮系统方案。
This paper presents a new suspension system with hybrid electromagnets made of high temperature superconductor and normal conductor coil.
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