Study of Discharge Position in Multi-Stage Synchronous Inductive Coilgun

Study of Discharge Position in Multi-Stage Synchronous Inductive Coilgun

There are many factors which can affect the muzzle velocity of the projectile in the system of the multi-stage synchronous inductive coilgun (SICG), and the discharge position of the armature is important one. If the discharge position of the armature with respect to a drive-coil is changed when a c...

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Veröffentlicht in:IEEE transactions on magnetics 2009-01, Vol.45 (1), p.518-521
Hauptverfasser: Cao Yanjie, Cao Yanjie, Liu Wenbiao, Liu Wenbiao, Li Ruifeng, Li Ruifeng, Zhang Yi, Zhang Yi, Zou Bengui, Zou Bengui
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Armature
Capacitor banks
Charge
Circuits
Coilgun
Coilguns
Coiling
Coils
Cross-disciplinary physics: materials science
rheology
Discharge
discharge position
Electromagnetic forces
Electromagnetic launching
Exact sciences and technology
Magnetism
Materials science
muzzle velocity
Other topics in materials science
Physics
Projectiles
Switched capacitor circuits
Switches
Switching circuits
Synchronous
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Zusammenfassung:There are many factors which can affect the muzzle velocity of the projectile in the system of the multi-stage synchronous inductive coilgun (SICG), and the discharge position of the armature is important one. If the discharge position of the armature with respect to a drive-coil is changed when a charge capacitor bank is switched into the drive-coil circuit, the muzzle velocity of the projectile launched by the armature will change. In this paper, discharge positions of the armature in a three-stage SICG are investigated. The results indicate that the best discharge position exists in each stage. If the capacitor bank in each stage is switched into the drive-coil circuit when the armature passes through the best discharge position in this stage, the projectile can be accelerated to the maximal muzzle velocity. The best discharge positions in the three-stage SICG are obtained.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2008.2008898