A method to determine the flexural rigidity of the main dipole for the Large Hadron Collider

La China M.; Cavallari G.; Ferracin P.; Perez J.G.; Todesco E.; Scandale W.

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A method to determine the flexural rigidity of the main dipole for the Large Hadron Collider

机译：确定大型强子对撞机主偶极子抗弯刚度的方法

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The Large Hadron Collider (LHC) superconducting dipole cold mass is a cylindrical structure 15 m long, made of a shrinking cylinder which contains iron laminations and collared coils. This structure, weighing about 28 tons, is horizontally bent by 5 mrad. Its shape should be preserved from the assembly phase to the operational condition at cryogenic temperature. Hence, an accurate comprehension of the mechanical behavior of the cold mass is required. In particular, the flexural rigidity in both horizontal and vertical directions represents one of the foremost properties. To determine the flexural rigidity, deformations of the cold mass induced by the self weight have been measured and compared with the predictions of an analytical structural model. Particular care has been taken in reducing the experimental error by an appropriate fitting procedure.

机译：大型强子对撞机（LHC）超导偶极子冷物质是一个15 m长的圆柱形结构，由一个收缩圆柱体制成，该圆柱体包含铁叠片和带圈线圈。该结构重约28吨，水平弯曲5毫拉德。在组装阶段至低温条件下，应保持其形状。因此，需要准确地理解冷块的机械性能。特别地，在水平和垂直方向上的抗弯刚度代表最重要的特性之一。为了确定抗弯刚度，已经测量了由自重引起的冷块的变形，并将其与解析结构模型的预测进行了比较。通过适当的拟合程序，在减少实验误差方面已格外小心。

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来源
《IEEE Transactions on Applied Superconductivity》 |2003年第2期|p.5-8|共4页
作者
La China M.; Cavallari G.; Ferracin P.; Perez J.G.; Todesco E.; Scandale W.;
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作者单位

Eur. Org. for Nucl. Res., CERN, Switzerland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
accelerator magnets; superconducting magnets; storage rings; synchrotrons; mechanical variables measurement; light interferometry; shear modulus; measurement errors; proton accelerators; flexural rigidity; main dipole; Large Hadron Collider; LHC supe;

机译：加速器磁铁;超导磁体储物环;同步加速器机械变量测量;光干涉仪剪切模量测量误差;质子促进剂;弯曲刚度主偶极子大型强子对撞机;大型强子对撞机;

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1. A method to determine the flexural rigidity of the main dipole for the Large Hadron Collider [J] . La China M., Cavallari G., Ferracin P., IEEE Transactions on Applied Superconductivity . 2003,第2期

机译：确定大型强子对撞机主偶极子抗弯刚度的方法
2. Dynamic aperture computation for the as-built CERN Large Hadron Collider and impact of main dipoles sorting [J] . S. Fartoukh, M. Giovannozzi Nuclear Instruments & Methods in Physics Research . 2012,第期

机译：建成的CERN大型强子对撞机的动态孔径计算和主偶极子分选的影响
3. Trends in cable magnetization and persistent currents during the production of the main dipoles of the Large Hadron Collider [J] . Bellesia B., Bottura L., Granata V., IEEE Transactions on Applied Superconductivity . 2005,第2期

机译：大型强子对撞机主偶极子产生过程中电缆磁化和持续电流的趋势
4. MAIN PARAMETERS OF ILC-TEVATRON BASED LEPTON-HADRON AND PHOTON-HADRON COLLIDERS [C] . O. Cakir, A. K. Ciftci, E. Recepoglu, IEEE Particle Accelerator Conference . 2005

机译：基于ILC-Tevatron的Lepton-Hadron和Photon-Havron煤机的主要参数
5. Experimental methods to measure Standard Model backgrounds to new physics searches using the CMS experiment at the Large Hadron Collider. [D] . Lamb, James Michael. 2009

机译：使用大型强子对撞机的CMS实验来测量标准模型背景以进行新物理搜索的实验方法。
6. Spectral Analysis Methods for the Robust Measurement of the Flexural Rigidity of Biopolymers [O] . David Valdman, Paul J. Atzberger, Dezhi Yu, 2012

机译：稳健地测量生物聚合物弯曲刚度的光谱分析方法
7. A Method to Determine the Flexural Rigidity of the Main Dipole for the Large Hadron Collider [O] . La China, M, Cavallari, Giorgio, Ferracin, P, 2002

机译：大型强子对撞机主偶极子抗弯刚度的确定方法

A method to determine the flexural rigidity of the main dipole for the Large Hadron Collider

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