脉冲电流冲击力对电极间距的影响
[1] Keshtkax A. Effect of rail dimension on current distribution and inductance gradient[J]. IEEE Trans on Magn, 2005, 41(1):383-386.
[2] Zhou Yuan, Yan Ping, Sun Yaohong, et al. Current distribution and inductance gradient calculation at different rail geometric parameters[C]//PPC2009 17th IEEE International Pulsed Power Conference. 2009:1290-1293.
[3] Yuan Weiqun, Yan Ping, Sun Yaohong, et al. Design and testing of a two-turn electromagnetic launcher[J]. IEEE Trans on Plasma Science, 2011, 39(1):198-202.
[4] Tzeng J T. Structural mechanics for electromagnetic railguns[J]. IEEE Trans on Magn, 2005, 41(1):246-250.
[5] Tzeng J T. Dynamic response of electromagnetic railgun due to projectile movement[J]. IEEE Trans on Magn, 2003, 39(1):472-475.
[7] Sun Yaohong, Yan Ping, Yuan Weiqun, et al. Design of a 3-m-long electromagnetic launcher[J]. IEEE Trans on Magn, 2009, 45(1):471-473.
[8] Daneshjoo K, Rahimzadeh M. Dynamic response and armature critical velocity studies in an electromagnetic railgun[J]. IEEE Trans on Magn, 2007, 43(1):126-131.
[9] Kerwien S C. Metallurgical post-mortem analysis of the cannon caliber electromagnetic gun: rails and insulating sidewalls[J]. IEEE Trans on Magn, 1997, 33(1):395-400.
[10] Johnson A J, Moon F C. Elastic waves and solid armature contact pressure in electromagnetic launchers[J]. IEEE Trans on Magn, 2006, 42(3):422-429.
[11] 埃斯特里·马歇尔·理查德, 王莹.电磁轨道炮的科学与技术[M].北京:兵器工业出版社, 2006:23-31.(Richard A M, Wang Ying. Railguns: their science and technology. Beijing: Weapon Industry Press, 2006:23-31)
李敏堂, 王亮, 张大鹏, 严萍, 周媛. 脉冲电流冲击力对电极间距的影响[J]. 强激光与粒子束, 2012, 24(1): 243. Li Mintang, Wang Liang, Zhang Dapeng, Yan Ping, Zhou Yuan. Effect of impulse force generated by pulse current on electrode spacing[J]. High Power Laser and Particle Beams, 2012, 24(1): 243.