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首页> 外文期刊>IEEE Transactions on Applied Superconductivity >After successful testing of a 1 m long dipole mirror magnet and three dipole models based on two-layer Nb3Sn coils, Fermilab has started a Nb3Sn technology scale-up program using the dipole mirror design and the developed Nb3
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After successful testing of a 1 m long dipole mirror magnet and three dipole models based on two-layer Nb3Sn coils, Fermilab has started a Nb3Sn technology scale-up program using the dipole mirror design and the developed Nb3

机译:在成功测试了一个1 m长的偶极反射镜磁体和基于两层Nb3Sn线圈的三个偶极模型之后,费米实验室已开始使用偶极镜设计和已开发的Nb3进行Nb3Sn技术放大计划。

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After successful testing of a 1 m long dipole mirror magnet and three dipole models based on two-layer Nb3Sn coils, Fermilab has started a Nb3Sn technology scale-up program using the dipole mirror design and the developed Nb3Sn coil fabrication technology based on the wind-and-react method. The scale-up will be performed in several steps starting from a 2 m long coil made of powder-in-tube (PIT) strand. This will be followed by 4 m long Nb3Sn coils made of PIT and RRP strands that will be fabricated into dipole mirror magnets and tested. This paper presents a summary of Fermilab's wind-and-react short model program. It includes details on the 2 m and 4 m long, 2 layer Nb3Sn dipole mirror magnet design, mechanical structure, and fabrication infrastructure.
机译:在成功测试了1 m长的偶极反射镜磁体和基于两层Nb3Sn线圈的三个偶极模型之后,费米实验室已开始使用偶极镜设计和基于风的已开发Nb3Sn线圈制造技术的Nb3Sn技术放大计划。和反应方法。从长2 m的管内粉末(PIT)线材制成的卷材开始,按比例进行放大。接下来是由PIT和RRP股线制成的4 m长Nb3Sn线圈,这些线圈将被制成偶极镜磁铁并进行测试。本文概述了费米实验室的风速反应短模型程序。它包括有关2 m和4 m长的2层Nb3Sn偶极镜磁体设计,机械结构和制造基础设施的详细信息。

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