脉冲电流冲击力对电极间距的影响

利用时变场理论和瞬态动力学方程建立了电极及其支撑结构的瞬态耦合模型, 分析了瞬态电磁场各参数的分布特点, 并求解了电极及其支撑结构的动态响应状态参数。计算结果表明:玻璃钢支撑结构对于脉冲电流形成的冲击力载荷具有很好的缓冲作用；低弹性模量支撑材料在脉冲上升沿和峰值阶段均会产生波动性形变, 但该波动性形变对电极间距不会造成太大的影响。

Abstract

To keep good interfacial contact between the sliding armature and the two electrodes of electromagnetic rail thruster, the electrode spacing should fluctuate within an allowable range under the impulse force generated by pulse current. A transient coupled model of the electrodes and their bracing structures is built by time-varying field theory and transient dynamics equation. The distributions of parameters of transient electromagnetic field are analyzed, and the dynamic response parameters of the electrodes and their bracing structures are obtained. The simulated results show that the epoxy bracing structures have good cushioning capacity to resist the impulse force generated by pulse current; the bracing material with low elastic modulus is more easily vibrated at the rising and peak phases of pulse current, and the vibrated deformation has little effect on the electrode spacing.

参考文献

[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.

[6] 李敏堂, 严萍, 袁伟群, 等．强流脉冲对结构体冲击力的数值模拟及试验［J］．强激光与粒子束, 2010, 22(3)：659-663．(Li Mintang, Yan Ping, Yuan Weiqun, et al． Numerical simulation and experiment of high-intensity current pulsed impact on the structure body． High Power Laser and Particle Beams, 2010, 22(3)：659-663)

[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.

脉冲电流冲击力对电极间距的影响

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