华中科技大学国家脉冲强磁场科学中心
学校主页 | English

科学研究

Research

研究机构

当前位置: 首页 > 科学研究 > 研究机构 > 正文

磁体和电磁技术团队

发布日期:2017-09-12    作者:     来源:     点击:

团队成员

姓名 研究方向 电子邮箱(请将#换成@)
李亮 永磁电机与装备,脉冲强磁场技术、超导磁体技术及应用 liangli44#mail.hust.edu.cn
彭涛 脉冲磁场产生与应用 pengtao#mail.hust.edu.cn
肖后秀 脉冲强磁场的产生及其应用,电力电子 xiaohouxiu#mail.hust.edu.cn
吕以亮 脉冲磁体技术,脉冲强磁场技术应用等 lvyiliang0315#126.com
赖智鹏 脉冲强磁场工程应用电磁成形 zplai#hust.edu.cn
李顺强 结构设计、加工 360596419#qq.com
程广 结构设计、加工 710950249#qq.com
杜浪 结构设计、加工 1171251093#qq.com


代表性论文

1. T. Peng, L. Li, 脉冲强磁场技术发展现状与趋势, 物理, (2015).

2. T. Peng, F. Jiang, Q.Q. Sun, Q. Xu, H.X. Xiao, F. Herlach, L. Li, Design and Test of a 90 T Non-destructive Magnet at the Wuhan National High Magnetic Field Center., IEEE Transactions on Applied Superconductivity, (2014).

3. T. Peng, F. Jiang, Q.Q. Sun, Y. Pan, F. Herlach, L. Li, Concept Design of 100 T Pulsed Magnet at the Wuhan National High Magnetic Field Center., IEEE Transactions on Applied Superconductivity, (2016).

4. L. Li, Y.L. Lv, H.F. Ding, T.H. Ding, X.T. Han, H.X. Xiao, Y. Xu, G.B. Wang, Y. Yuan, F. Jiang, Q.Q. Sun, X.Z. Duan, Y. Pan, T. Peng, Short and long pulse high magnetic field facilities at the Wuhan National High Magnetic Field Center., IEEE Transactions on Applied Superconductivity, (2014).

5. T. Peng, H.X. Xiao, F. Herlach, L. Li, Measurement of the Deformation in Pulsed Magnets by Means of Optical Fiber Sensors, IEEE Transactions on Applied Superconductivity, (2012).

6. T. Peng, Q.Q. Sun, X. Zhang, Q. Xu, H.X. Xiao, F. Herlach, Y. Pan, L. Li, Design and Performance of the First Dual-Coil Magnet at the Wuhan National High Magnetic Field Center, Journal of Low Temperature Physics, 170 (2012) 463-468.

7. Y.L. Lv, T. Peng, G.B. Wang, T.H. Ding, X.T. Han, Y. Pan, L. Li, Magnet Design and Analysis of a 40 Tesla Long Pulse System Energized by a Battery Bank, Journal of Low Temperature Physics, 170 (2012) 475-480.

8. L. Li, T. Peng, H.X. Xiao, Y.L. Lv, Y. Pan, F. Herlach, Magnet Development Program at the WHMFC, IEEE Transactions on Applied Superconductivity, (2012).

9. H. Li, H.F. Ding, T. Peng, H.X. Xiao, C.X. Jiang, Design of a 60 T Quasi-continuous Magnetic Field System with a Hybrid Capacitor/Rectifier Power Supply, Journal of Low Temperature Physics, 170 (2012) 496-502.

10. F. Jiang, T. Peng, H. Xiao, J. Zhao, Y. Pan, F. Herlach, L. Li, Design and test of a flat-top magnetic field system driven by capacitor banks, The Review of scientific instruments, 85 (2014) 045106.

11. Q. Sun, F. Jiang, L. Deng, H. Xiao, L. Li, M. Liang, T. Peng, Uniaxial fatigue behavior of Cu-Nb micro-composite conductor, Part II: Modeling and simulation, International Journal of Fatigue, 91 (2016) 286-292.

12. Q. Sun, F. Jiang, L. Deng, H. Xiao, L. Li, M. Liang, T. Peng, Uniaxial fatigue behavior of Cu–Nb micro-composite conductor, part I: Effect of peak stress and stress ratio, International Journal of Fatigue, 91 (2016) 275-285.

13. F. Jiang, Q.Q. Sun, Z.P. Lai, B. Luo, Y. Pan, L. Li, T. Peng, Electromagnetically Driven Expanding Ring Test for the Strength Study of the Zylon-epoxy Composite-final., IEEE Transactions on Applied Superconductivity, (2016).

14. H. Xiao, T. Peng, Z. Zhou, L. Li, Online feature parameter extraction for pulsed magnets., IEEE Transactions on Applied Superconductivity, (2014).

15. H. Xiao, T. Peng, L. Li, Detecting and positioning the insulation failure of pulsed magnets., IEEE Transactions on Applied Superconductivity, (2014).

16. Q.Q. Sun, L. Liang, F. Jiang, H.X. Xiao, T. Peng, Fatigue Properties of CuNb Conductor used for Pulsed Magnets at the WHMFC., IEEE Transactions on Applied Superconductivity, (2014).

17. L. Li, Y.L. Lv, H.X. Xiao, Y. Pan, T. Peng, High performance pulsed high magnetic fields at Wuhan National High Magnetic Field Center., IEEE Transactions on Applied Superconductivity, (2016).

18. S. Wang, L. Li, H. Zuo, M. Liu, T. Peng, A Cryogen-free Cryostat for Scientific Experiment in Pulsed High Magnetic Fields, Physics Procedia, 67 (2015) 744-749.

19. Y. Lv, T. Peng, GuobinWang, T. Ding, H. Xiao, Y. Pan, L. Li, Fabrication and test of a 40 T long pulse magnet driven by battery bank., IEEE Transactions on Applied Superconductivity, (2014).

20. L. Li, X. Han, T. Peng, H. Ding, T. Ding, L. Qiu, Z. Zhou, Q. Xiong, Space-Time-Controlled Multi-Stage Pulsed Magnetic Field Forming and Manufacturing Technology., International Conference on High Speed Forming, (2014).

21. T. Peng, Q. Sun, J. Zhao, F. Jiang, L. Li, Q. Xu, F. Herlach, Development of fast cooling pulsed magnets at the Wuhan National High Magnetic Field Center, The Review of scientific instruments, 84 (2013) 125112.

22. Z. Zhou, Y. Song, H. Xiao, T. Peng, L. Li, Evaluation Indexes of Reinforcement for Optimizing Pulsed Magnet Design, IEEE Transactions on Applied Superconductivity, (2012).

23. B. Zhang, Z. Xia, Z. Chen, Y. Wu, Q. Cao, Z. Zhou, L. Li, High Temperature Magnetization Measurement System in Pulsed Magnetic Field, IEEE Transactions on Applied Superconductivity, (2012).

24. B. Zhang, T. Peng, Q. Chen, Q.-L. Cao, K. Ji, B. Shuang, J.-J. Ye, L. Li, 3-D nonlinear transient analysis and design of eddy current brake for high-speed trains, International Journal of Applied Electromagnetics & Mechanics, 40 (2012) 205-214.

25. J. Vanacken, T. Peng, J.A.A.J. Perenboom, F. Herlach, V.V. Moshchalkov, The Renewed KU Leuven Pulsed Field Facility, Journal of Low Temperature Physics, 170 (2012) 553-561.

26. L. Qiu, X. Han, T. Peng, H. Ding, Q. Xiong, Z. Zhou, C. Jiang, Y. Lv, L. Li, Design and Experiments of a High Field Electromagnetic Forming System, IEEE Transactions on Applied Superconductivity, (2012).

27. S. Wang, L. Li, Z. Ouyang, Z. Xia, N. Xia, T. Peng, K. Zhang, 脉冲强磁场高频电子自旋共振装置的研制, 物理学报, (2012).