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IMPROVED CAPACITIVE STRESS TRANSDUCERS FOR HIGH-FIELD SUPERCONDUCTING MAGNETS

机译：改进的高场超导磁体的电容应力传感器

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High-field (12-18 Tesla) superconducting magnets are required to enable an increase in the energy of future colliders. Such field strength requires the use of Nb_3Sn superconductor, which has limited tolerance for compressive and shear strain. A strategy for stress management has been developed at Texas A&M University and is being implemented in TAMU3, a short-model 14 Tesla stress-managed Nb_3Sn block dipole. The strategy includes the use of laminar capacitive stress transducers to monitor the stresses within the coil package. We have developed fabrication techniques and fixtures, which improve the reproducibility of the transducer response both at room temperature and during cryogenic operation. This is a report of the status of transducer development.

机译：需要高场（12-18个Tesla）超导磁体，以便增加未来煤机的能量。这种场强需要使用NB_3SN超导体，这对压缩和剪切应变具有有限的耐受性。德克萨斯A＆M大学已经开发了一种压力管理战略，并在Tamu3中实施，这是一个短型14特斯拉应力管理的NB_3SN嵌段偶极子。该策略包括使用层压电容应力换能器来监测线圈封装内的应力。我们开发了制造技术和夹具，可提高室温和低温操作期间的换能器反应的再现性。这是换能器开发状态的报告。

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来源
《Cryogenic Engineering Conference》|2012年||共8页
会议地点
作者
C.P. Benson; E.F. Holik; A. Jaisle; A.D. McInturff; P.M. McIntyre;
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原文格式 PDF
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中图分类 TB6-53;
关键词
capacitive transducer; stress management; capacitive stress transducer;

机译：电容传感器;应力管理;电容应力传感器;

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专利

1. Development of Superconducting Magnet for MHD ETL Mark V Facility -Aiming to Establish Technologies for Big High-field Superconducting Magnet-Part I Magnet Design Concepts and Conductor Tests [J] . Yoshimichi Aiyama, Masaichi Umeda 低温工学 . 2001,第9期

机译：用于MHD ETL Mark V设施的超导磁体的开发-旨在建立大型高场超导磁体的技术-第一部分磁体设计概念和导体测试
2. Development of Superconducting Magnet for MHD ETL Mark V Facility -Aiming to Establish Technologies for Big High-field Superconducting Magnet-Part I Magnet Design Concepts and Conductor Tests [J] . Yoshimichi Aiyama, Masaichi Umeda 低温工学 . 2001,第9期

机译：用于MHD ETL Mark V设施的超导磁体的开发-旨在建立大型高场超导磁体的技术-第一部分磁体设计概念和导体测试
3. Development of Superconducting Magnet for MHD ETL Mark V Facility -Aiming to Establish Technologies for Big High-field Superconducting Magnet-Part I Magnet Design Concepts and Conductor Tests [J] . Yoshimichi Aiyama, Masaichi Umeda 低温工学 . 2001,第9期

机译：对于 MHD ETL Mark V型基金 -Aiming 建立技术用于大型高场超导磁体，第一部分磁铁的设计理念和指挥测试超导磁体的研制
4. IMPROVED CAPACITIVE STRESS TRANSDUCERS FOR HIGH-FIELD SUPERCONDUCTING MAGNETS [C] . C.P. Benson, E.F. Holik, A. Jaisle, Cryogenic Engineering Conference . 2012

机译：改进的高场超导磁体的电容应力传感器
5. Stress management as an enabling technology for high-field superconducting dipole magnets [D] . Holik, Eddie Frank, III. 2014

机译：压力管理作为高场超导偶极磁体的能力管理
6. A Field-Sweep/Field-Lock System for Superconducting Magnets-Application to High-Field EPR [O] . Thorsten Maly, Jeff Bryant, David Ruben, -1

机译：一种用于超导磁体的场扫/场锁系统-应用于高场EPR
7. Development of Superconducting Magnet for MHD ETL Mark V Facility. Aiming to Establish Technologies for Big High-field Superconducting Magnet. Part III. Challenging Experiments and Project Summary. [O] . Yoshimichi AIYAMA, Masaichi UMEDA 2001

机译：MHD ETL标记V设施超导磁体的研制。旨在建立大型高场超导磁铁技术。第三部分。具有挑战性的实验和项目摘要。

IMPROVED CAPACITIVE STRESS TRANSDUCERS FOR HIGH-FIELD SUPERCONDUCTING MAGNETS

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