Title :
Design and Testing of 15-Stage Synchronous Induction Coilgun
Author :
Tao Zhang ; Wei Guo ; Fuchang Lin ; Zizhou Su ; Honghai Zhang ; Yanhui Chen ; Mingtao Li ; Xiaochao Sun
Author_Institution :
State Key Lab. of Adv. Electromagn. Eng. & Technol., Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
An improved large-caliber synchronous induction coilgun is designed and tested to demonstrate the launch of 120-mm projectiles. This induction coilgun consists of 15 identical coils forming a long uniform barrel for simple design and fabrication. Fifteen separate coils are fit in a long insulative tube and molded once with elastic insulative material that isolates the coils with the containment. The 15-stage induction coilgun provides a significant improvement in the armature capture effect, system efficiency, and coil structure. A computer simulation model based on the viewpoint of finite element analysis software is developed to predict the performance of the launcher system. Five-kg copper projectiles are accelerated from rest to 220 m/s through the 2.5-m launcher assembly with a projectile kinetic energy to capacitor stored energy efficiency of 14.5%. Further experimental studies are continued.
Keywords :
capacitor storage; electromagnetic launchers; insulating materials; projectiles; testing; 15-stage synchronous induction coilgun testing; armature capture effect; capacitor stored energy efficiency; coil structure; computer simulation model; copper projectiles; elastic insulative material; finite element analysis software; insulative tube; large-caliber synchronous induction coilgun; launcher system; size 120 nm; size 2.5 m; system efficiency; Acceleration; Coilguns; Coils; Energy storage; Integrated circuit modeling; Power supplies; Projectiles; Coil structure; efficiency; induction coilgun; simulation;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2251365
