Spatial Periodic and Homogeneous Transverse Stress Loading on ITER TF ${rm Nb}_{3}{rm Sn}$ Bronze and Internal Tin Strand

Nijhuis A.

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Spatial Periodic and Homogeneous Transverse Stress Loading on ITER TF ${rm Nb}_{3}{rm Sn}$ Bronze and Internal Tin Strand

机译：ITER TF $ {rm Nb} _ {3} {rm Sn} $青铜和内部锡链上的空间周期性和均匀横向应力负荷

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The transport properties of the superconducting Nb3Sn layers in the strands strongly depend on the strain state. Knowledge of the influence of axial strain, periodic bending and contact stress on the critical current $(I_{rm c})$ of the used ${rm Nb}_{3}{rm Sn}$ strands is inevitable to gain sufficient confidence in an economic design and stable operation of ITER CICCs. In the past years we have measured the Ic and n-value of various ITER ${rm Nb}_{3}{rm Sn}$ strands with different layout in the TARSIS facility, when subjected to spatial periodic contact stress at a temperature of 4.2 K and in a magnet field of 12 T. Recently we have made the setup suitable for application of homogeneous load along the length of the wire (125 mm) in order to evaluate possible differences related to spatial stress and possible current distribution. We present an overview of the results obtained so far on an ITER TF bronze and internal tin strand.

机译：股中的超导Nb3Sn层的传输特性在很大程度上取决于应变状态。了解轴向应变，周期性弯曲和接触应力对用过的$ {rm Nb} _ {3} {rm Sn} $股线的临界电流$（I_ {rm c}）$的影响是不可避免的，以获得足够的信心经济设计和稳定运行ITER CICC。在过去的几年中，我们在TARSIS设施中，在温度为，磁场强度为4.2 K，磁场强度为12T。最近，我们使该装置适合于沿导线长度（125 mm）施加均匀负载，以评估与空间应力和可能的电流分布有关的可能差异。我们概述了迄今为止在ITER TF青铜和内部锡条上获得的结果。

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《Applied Superconductivity, IEEE Transactions on》 |2012年第3期|p.1-5|共5页
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Nijhuis A.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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专利

1. Performance of ITER (EU-TFPRO-2) ${rm Nb}_{3}{rm Sn}$ Strands Under Spatial Periodic Bending, Axial Strain and Contact Stress [J] . Nijhuis A., Ilyin Y., Abbas W., IEEE Transactions on Applied Superconductivity . 2008,第2期

机译：ITER（EU-TFPRO-2）$ {rm Nb} _ {3} {rm Sn} $钢绞线在空间周期性弯曲，轴向应变和接触应力下的性能
2. Spatial Periodic Bending and Critical Current of Bronze and PIT ${rm Nb}_{3}{rm Sn}$ Strands in a Steel Tube [J] . Nijhuis A., Ilyin Y., Abbas W., IEEE Transactions on Applied Superconductivity . 2007,第2期

机译：钢管中青铜和PIT $ {rm Nb} _ {3} {rm Sn} $钢绞线的空间周期性弯曲和临界电流
3. Worldwide Benchmarking of ITER Internal Tin ${rm Nb}_{3}{rm Sn}$ and NbTi Strands Test Facilities [J] . Pong I. Applied Superconductivity, IEEE Transactions on . 2012,第3期

机译：ITER内部锡$ {rm Nb} _ {3} {rm Sn} $和NbTi钢绞线测试设施的全球基准测试
4. Filament fracture and irreversible performance degradation in bronze and internal tin ITER type Nb_3Sn strands [C] . Miyoshi Y., Wessel W.A.J., Van Lanen E.P.A., International Cryogenic Materials Conference . 2009

机译：青铜和内部锡射线型NB_3SN股线中的长丝骨折和不可逆性能降解
5. Critical Current Behavior of PIT Nb3Sn Strands Under Transverse Load Using Finite Element Analysis. [D] . Catanzano, Daniel. 2014

机译：PIT Nb3Sn钢绞线在横向载荷下的临界电流行为的有限元分析。
6. The Effect of Periodic Spatial Perturbations on the Emission Rates of Quantum Dots near Graphene Platforms [O] . Xin Miao, David J. Gosztola, Xuedan Ma, 2020

机译：周期性空间扰动对石墨烯平台附近量子点排放率的影响
7. Spatial periodic and homogeneous transverse stress loading on ITER TF Nb3Sn bronze and internal tin strand [O] . Nijhuis, Arend, Pompe van Meerdervoort, R.P., Wessel, Wilhelm A.J. 2012

机译：ITER TF Nb3Sn青铜和内部锡条上的空间周期性和均匀横向应力载荷
8. Transverse stress effect on the critical current of internal tin and bronze process Nb(sub 3)Sn superconductors. [R] . Ekin, J. W., Bray, S. L., Danielson, P., 1989

机译：横向应力对内部锡和青铜工艺Nb（sub 3）sn超导体临界电流的影响。

Spatial Periodic and Homogeneous Transverse Stress Loading on ITER TF ${rm Nb}_{3}{rm Sn}$ Bronze and Internal Tin Strand

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