You are now here: International Affairs> Teaching Affairs>

Master Tutor8-Ph.D Xiong Qi

Clicks:220 Publisher:lxsb Updated:2018-07-05 15:05:07


Lecturer of CTGU, Doctor of Electrical Engineer

College of Electrical Engineering & New Energy

China Three Gorge University

Yichang, Hubei Province, China




Education Background Information

2010.9 till 2016.6        Huazhong University of Science and Technology(PhD program)

                       (The Wuhan National High Magnetic Field Center)

                      Major: Electrical Engineering

200.6 till 2010.6         Huazhong University of Science and Technology(Bachlor)

Major: Electrical Engineering and Automation


Scientific Research Background

2011 till now           Electromagnetic Forming Technology 



1 Study on the spatial and temporal distribution characteristics of electromagnetic force and forming quality in electromagnetic attractive forming of sheet metals. Funded by National Natural Science Foundation of China. 2018/01-2020/12.

2 Study on the distribution characteristics of electromagnetic force and forming quality in electromagnetic forming of Al alloy sheet metalsFunded by Research Foundation of Education Bureau of Hubei Province, China2017/01-2018/12

3 Study on deep drawing process based on controlled radial-axial force, Funded by HUST Innovation Research Institution. 2014/01-2015/12    

As Participator

1) Space-time-controlled multi-stage pulsed magnetic field forming and manufacturing technology. Funder by National Program on Key Basic Research Project of China (973 Program). 2011/11~2016/09


Papers in Proceedings

[1] Qi Xiong, Quanliang Cao, Xiaotao Han. Axially Movable Electromagnetic Forming System for Large-scale Metallic Sheet[J]. IEEE Transactions on Applied Superconductivity, 2016:1-1.

[2] Qi Xiong, Xiao-tao Han, Quan-liang Cao. Bulging of 1420 Al-Li alloy based on Pulse Current[J]. Procedia Engineering, 2014, 81:808-812.



[1] Li Liang, Xiong Qi. “An electromagnetic force for driving the metal material plastic forming method”, CN Patent: 103962437