Multiscale analysis of the influence of the triplet helicoidal geometry on the strain state of a Nb_3Sn based strand for ITER coils

D.P. Boso; M. Lefik; B.A. Schrefler

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Multiscale analysis of the influence of the triplet helicoidal geometry on the strain state of a Nb_3Sn based strand for ITER coils

机译：三重螺旋线形几何形状对ITER线圈Nb_3Sn基钢绞线应变状态影响的多尺度分析

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A theoretical model of a beam of unidirectional composites-based on the homogenisation theory and a refined kinematical hypothesis-is used for the analysis of the influence of the helicoidal geometry of a superconducting strand triplet on its strain state. The triplet is the first cabling stage of the superconducting cables used to wind the coils of ITER fusion reactor. The multiscale modelling strategy is presented, for which a finite element code has been developed. A triplet of Nb_3Sn based strands subjected to an axial stretch is analysed, and the resulting complete 3D strain state in the Nb3Sn filament is recovered. An "extra" strain is found due to the helicoidal geometry of the triplet. Discussion of the results concludes the paper.

机译：基于均质化理论和精细的运动学假设的单向复合材料梁的理论模型用于分析超导股三重态的螺旋几何形状对其应变状态的影响。三重态是用于缠绕ITER聚变反应堆线圈的超导电缆的第一个布线阶段。提出了一种多尺度建模策略，为此开发了有限元代码。分析了受轴向拉伸的三重Nb_3Sn基股，并回收了Nb3Sn丝中所得的完整3D应变状态。由于三重态的螺旋几何形状，发现“额外”应变。对结果的讨论总结了本文。

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《Cryogenics》 |2005年第9期|共17页
作者
D.P. Boso; M. Lefik; B.A. Schrefler;
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正文语种 eng
中图分类制冷工程;
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Nb_3Sn based strand; Filament strain; Superconducting cable; Composite materials; Multilevel homogenisation; Beam theory; Finite element method;

机译：Nb_3Sn基绞线细丝应变超导电缆复合材料多层均质束理论有限元法;

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1. Multiscale analysis of the influence of the triplet helicoidal geometry on the strain state of a Nb_3Sn based strand for ITER coils [J] . D.P. Boso, M. Lefik, B.A. Schrefler Cryogenics . 2005,第9期

机译：三重螺旋线形几何形状对ITER线圈Nb_3Sn基钢绞线应变状态影响的多尺度分析
2. The influence of Nb_3Sn strand geometry on filament breakage under bend strain as revealed by metallography [J] . Matthew C Jewell, Peter J Lee, David C Larbalestier Superconductor Science & Technology . 2003,第9期

机译：金相分析表明，Nb_3Sn钢绞线的几何形状对弯曲应变下细丝断裂的影响
3. Scaling law for the strain dependence of the critical current in an advanced ITER Nb_3Sn strand [J] . Y Ilyin, A Nijhuis, E Krooshoop Superconductor Science & Technology . 2007,第3期

机译：先进ITER Nb_3Sn链中临界电流的应变相关性的定标律
4. A Novel "Test Arrangement for Strain Influence on Strands" (TARSIS): Mechanical and Electrical Testing of ITER Nb_3Sn Strands [C] . W. A. J. Wessel, A. Nijhuis, Yu. Ilyin, International Cryogenic Materials Conference . 2004

机译：一种新颖的“对股线的应变影响试验”（Tarsis）：ITER NB_3SN股线的机械和电气测试
5. A computational geometry approach to the analysis of structure-function relationship in beta strand proteins. [D] . Alsheddi, Tariq A. 2006

机译：一种计算几何方法来分析β链蛋白中的结构-功能关系。
6. THE GEOMETRY OF TRIPLETS IN CILIARY BASAL BODIES FROM PRIMATE OVIDUCTS [O] . W. F. Harris 1973

机译：原始卵在睫状基底尸体中的三重几何
7. Plasma response based RMP coil geometry optimization for an ITER plasma [O] . Zhou, Lina, Liu, Yue, Liu, Yueqiang, 2016

机译：针对ITER等离子体的基于等离子体响应的RMP线圈几何优化
8. ITER Model Coil Tests Overview: Nb3Sn Strand Properties in Cable-in-Conduit-Conductors [R] . Martovetsky, N. N. 2003

机译：ITER模型线圈测试概述：电缆输入导体中的Nb3sn钢绞线特性

Multiscale analysis of the influence of the triplet helicoidal geometry on the strain state of a Nb_3Sn based strand for ITER coils

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