CSNS/RCS交流二极磁铁研制关键技术

李青; 康文; 孙献静; 邓昌东; 陈宛

doi:10.11884/HPLPB201729.160498

强激光与粒子束

CSNS/RCS交流二极磁铁研制关键技术

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李青, 康文, 孙献静, 邓昌东, 陈宛. 2017: CSNS/RCS交流二极磁铁研制关键技术, 强激光与粒子束, 29(8): 120-124. doi: 10.11884/HPLPB201729.160498

引用本文:

李青, 康文, 孙献静, 邓昌东, 陈宛. 2017: CSNS/RCS交流二极磁铁研制关键技术, 强激光与粒子束, 29(8): 120-124. doi: 10.11884/HPLPB201729.160498

Li Qing, Kang Wen, Sun Xianjing, Deng Changdong, Chen Wan. 2017: Key technology of the development of the CSNS/RCS AC dipole magnet, High Power Lase and Particle Beams, 29(8): 120-124. doi: 10.11884/HPLPB201729.160498

Citation:

Li Qing, Kang Wen, Sun Xianjing, Deng Changdong, Chen Wan. 2017: Key technology of the development of the CSNS/RCS AC dipole magnet, High Power Lase and Particle Beams, 29(8): 120-124. doi: 10.11884/HPLPB201729.160498

CSNS/RCS交流二极磁铁研制关键技术

中国科学院高能物理研究所, 北京 100049;东莞中子科学中心, 广东东莞 523803;东莞高精度磁场测量试验室, 广东东莞 523803
中国科学院高能物理研究所,北京,100049

Key technology of the development of the CSNS/RCS AC dipole magnet

摘要: 针对交流二极磁铁的磁场特性和涡流问题,利用电磁场分析软件对磁铁进行了优化设计和温度场计算,确定了交流二极磁铁关键技术的方案.对交流二极磁铁极头端面采用了罗高斯基曲线和谐波削斜的方法来提高磁铁磁场质量;对铁芯端部和端板进行开槽优化设计,有效切断磁铁端部主要的涡流回路,降低了磁铁温升;磁铁线圈采用铝绞线导线进行绕制,以减少磁铁线圈内的涡流损耗.最后,通过对样机磁铁的测试,磁场均满足物理要求,磁铁温度也控制在安全范围内.
- 快循环同步加速器 /
- 带直流偏置的交流磁铁 /
- 罗高斯基曲线 /
- 端部削斜 /
- 开槽 /
- 温度分析
Abstract: According to magnetic field properties and the eddy currents in AC dipole magnet, magnet design and the thermal simulation are performed by the electromagnetic field analysis software and the schemes of key technology are determined.The Rogowski curve and the harmonic chamfering method are applied to improve the magnetic field quality.Slit arrangement on the end plates of the dipole can cut down the eddy currents effectively and lessen the temperature rise.Coils of dipole magnet are made of Al-stranded conductors for the reduction of AC eddy losses.The measurement results and the temperature test of the prototype magnet are described and discussed.The magnetic fields of the prototype meet the requirements and the temperature rise is in the safety range.

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CSNS/RCS交流二极磁铁研制关键技术

中国科学院高能物理研究所, 北京 100049;东莞中子科学中心, 广东东莞 523803;东莞高精度磁场测量试验室, 广东东莞 523803
中国科学院高能物理研究所,北京,100049

关键词:

摘要: 针对交流二极磁铁的磁场特性和涡流问题,利用电磁场分析软件对磁铁进行了优化设计和温度场计算,确定了交流二极磁铁关键技术的方案.对交流二极磁铁极头端面采用了罗高斯基曲线和谐波削斜的方法来提高磁铁磁场质量;对铁芯端部和端板进行开槽优化设计,有效切断磁铁端部主要的涡流回路,降低了磁铁温升;磁铁线圈采用铝绞线导线进行绕制,以减少磁铁线圈内的涡流损耗.最后,通过对样机磁铁的测试,磁场均满足物理要求,磁铁温度也控制在安全范围内.

English Abstract

Key technology of the development of the CSNS/RCS AC dipole magnet

中国科学院高能物理研究所, 北京 100049;东莞中子科学中心, 广东东莞 523803;东莞高精度磁场测量试验室, 广东东莞 523803
中国科学院高能物理研究所,北京,100049

Keywords:

Abstract: According to magnetic field properties and the eddy currents in AC dipole magnet, magnet design and the thermal simulation are performed by the electromagnetic field analysis software and the schemes of key technology are determined.The Rogowski curve and the harmonic chamfering method are applied to improve the magnetic field quality.Slit arrangement on the end plates of the dipole can cut down the eddy currents effectively and lessen the temperature rise.Coils of dipole magnet are made of Al-stranded conductors for the reduction of AC eddy losses.The measurement results and the temperature test of the prototype magnet are described and discussed.The magnetic fields of the prototype meet the requirements and the temperature rise is in the safety range.

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CSNS/RCS交流二极磁铁研制关键技术

Key technology of the development of the CSNS/RCS AC dipole magnet

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CSNS/RCS交流二极磁铁研制关键技术

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Key technology of the development of the CSNS/RCS AC dipole magnet

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