共查询到18条相似文献,搜索用时 546 毫秒
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本文主要研究了在77K温度下,拉伸应变和弯曲应变对Bi-2223/Ag超导带材临界电流的影响,得到了超导带材的临界电流随拉伸强度、曲率半径变化规律.实验结果显明,拉伸作用在超导带材上产生的形变对其临界电流(Ic)的影响存在一个临界值εirr=0.3%.形变小于此临界值,Ic变化较小,超过此临界值,临界电流急剧下降.弯曲实验同样存在类似关系.同步辐射光源对超导带材检测表明,在形变情况下,超导氧化物陶瓷芯的微裂纹迅速增加和交织是Ic降低的主要原因. 相似文献
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针对YBCO高温超导带材临界电流特性,文中基于四引线法,构造了一个集成有背景磁场发生装置的减压降温的低温测量装置。该装置包括一个提供背景磁场的双"E"形铁心线圈磁体;一个可以旋转0—360°的超导带材样本架以及一套可实现减压降温功能的低温测试系统。通过对低温杜瓦内温度、YBCO带材所处背景磁场大小、背景磁场与YBCO带材表面夹角的控制,实现了YBCO超导带材在不同温区、不同磁场及磁场方向下的临界电流特性的测量。这种新颖的测量方法和装置,综合考虑了环境温度、背景磁场和磁场方向变化的具体影响,能够获得较全面的YBCO高温超导带材临界电流性能参数。 相似文献
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在MgB2/Fe超导带材中,Fe包套与MgB2超导芯的交界处有很薄的反应层,其主要成分为Fe2B和FeB,其电阻率很高,导致当电流在基材和超导芯间转移时存在一个转移长度,在这一长度上会产生电压分布并伴随有焦耳热产生,从而影响到带材的临界电流测量和热稳定性.本文使用分布电阻模型分析了MgB2/Fe超导带材中的电流转移特点,推导出电流转移长度的公式及由于电流转移产生的焦耳热.并把电流转移产生的焦耳热加入到MgB2/Fe超导带材在绝热条件下失超传播的一维分析当中,推导出失超传播速度的公式,对超导带材失超传播速度的传统计算公式进行了改进.本文对研究MgB2/Fe复合超导带材的热稳定性分析及MgB2超导带材的实用化具有参考价值. 相似文献
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It is necessary to develop HTS conductors with a large current capacity and low AC loss characteristics for practical use of HTS power devices. For large capacity power applications, HTS tapes such as Bi-2223 tapes and YBCO coated conductors are assembled. So, it is important to evaluate the characteristics of current distributions in such assembled HTS tapes. However, an adequate measurement method has not been established. In this study, we have tried the development of an indirect measurement method to evaluate the current distributions in stacked HTS tapes. In this method, the current distributions are indirectly found from the results of the field distributions measured by a pickup coil located around the surface of the sample tapes. To confirm the accuracy and the sensitivity of this method, current distributions in a test conductor made of copper tapes are measured. Numerical and measured current distributions are compared. Using this method, the current distributions in stacked Bi-2223 tapes are measured at room temperature and 77 K. On the basis of the obtained results, the characteristics of the AC current distributions in the HTS tapes are discussed. 相似文献
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第二代(RE)BCO 高温超导带可以进行切割和堆叠以形成叠层状的复合导体结构, 具备磁化后捕获强磁场的潜力. 脉冲磁化条件下, 叠层导体会受到电-磁-热多物理场作用, 易对高温超导带的力学稳定性造成不利影响.本文基于电磁场 H 格式和热传导方程对叠层导体进行了多场耦合建模分析, 同时结合有限元方法, 分析了圆柱形叠层导体脉冲磁化过程中的应力分布特性. 结果显示, 环向拉应力是叠层导体的主要破坏因素. 环向应力的主导成分为热应力, 其变化趋势与热应力变化高度吻合. 热应力在叠层内部处于较低水平, 表现为拉应力, 沿半径逐渐变更为压缩应力, 在边缘区域达到峰值-34 MPa, 随后转变为拉应力, 并在边界处达到峰值38 MPa, 峰值时间点都位于升磁阶段, 降磁阶段峰值不断降低 相似文献
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Yuan J Rohan ML Shen GX 《Journal of magnetic resonance (San Diego, Calif. : 1997)》2006,182(2):298-307
The use of Bi-2223 high temperature superconducting (HTS) tape as a material for gradient coils in MRI is evaluated in this paper. Bi-2223 tapes have a very high critical current and a very low power loss. A HTS tape gradient coil is expected to provide much higher gradient strength and generate much lower heating than a copper coil. Measurements of the AC power loss of Bi-2223 tapes at typical operating frequencies for gradient coils are presented. The degradation of the critical current and its effect on the increase of AC power loss is analyzed. Practical technical issues such as resistance, gradient strength and mechanical performance are also discussed. A prototype Bi-2223 HTS tape gradient coil is evaluated to verify the concept. 相似文献
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Seeking a geometry that can withstand greater transverse loads based on the electromechanical material properties of high-temperature superconducting (HTS) tape is an effective way of improving the transport performance of HTS cables. The cabling method requires the determination of the optimum twist angle of the HTS tape for withstanding transverse loads. This paper investigates the critical current characteristics of HTS tapes under combined deformation. The limit range of the twist angle under the combined deformation is measured and the optimum twist angle of the HTS tape is determined. The results show that the twisting chirality configuration obviously affects the bending strength of the HTS tape. In the elastic range, increasing the pre-twist angle increases the bending strength of the HTS tape, thereby improving the transport performance. In addition, a numerical model is built to further investigate the effect of the twisting chirality configuration on the electromechanical properties of the HTS tape, and the experimental results are explained. The experimental and simulation results generally agree well, and calculations show that there is always a sharp change in stress at the interface of different materials. These findings explain the mechanism of the effect of the twisting chirality configuration on the mechanical behavior and critical current of the HTS tape. They also provide a reference for cabling methodologies for the HTS cable configuration. 相似文献
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The critical current of high-temperature superconductor (HTS) tapes depends on temperature, magnetic field, and flux angle against the tape. Analyzing the performance of an HTS coil relies on the critical current equation, which has these dependencies. To date, the critical current equation has been obtained by fitting the measured data. However, this fitting method requires the time-consuming and laborious work of measuring the tapes. In this study, based on a new transition concept in applying a magnetic field, we show how to obtain the critical current equation, while keeping the temperature constant. From the wave function of the Cooper pair which distributes along a magnetic flux quantum, a wave function at the transition state is obtained; this yields the wave functions with perpendicular and parallel magnetic components against the tape. Combining these wave functions yields the conclusive critical current density equation. To confirm the accuracy of this equation, used Bi-2223/Ag tapes, it was compared with the measured critical current under various magnetic fields and flux angles; it was found that they agree well. The parameters of this equation can be obtained by measuring the perpendicular/parallel critical magnetic field component. This equation does not require fitting the measured data, therefore, it can be employed with any Bi-2223/Ag tape. 相似文献
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高温超导磁体临界电流磁矢量分析法准确地预测了BSCCO高温超导磁体的临界电流,为了进一步验证该方法预测YBCO高温超导磁体临界电流的准确性,文中作者用9.3m二代高温超导YBCO带材绕制了一个内径为70mm,外径为100mm,共35匝的单饼,测试了单饼5-15匝,15-25匝,25-35匝和5-35匝在77K下的临界电流,并用磁矢量分析法进行了仿真分析。通过对比发现,仿真分析和实验结果的误差在5%左右,最大误差是6.75%,最小误差是4.77%,验证了磁矢量分析法在预测YBCO高温超导磁体临界电流时的准确性。 相似文献
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高温超导变压器的漏磁场降低绕组中的临界电流并增加交流损耗;超导材料的零电阻特性使得绕组限制环流的能力极低.因此,在设计超导变压器时,进行磁场分析和环流计算显得尤其重要.本文采用场-路结合的方法,即在用ANSYS求得反映变压器各支路之间电磁耦合的电感矩阵的基础上列出电路方程,计算了变压器低压绕组5种不同形式的各支路电流分布,并进而分析了磁场.同时提出了减小环流和改善磁场分布的一些措施. 相似文献