Title :
Explosive foil injection (EFI) pre-accelerator for electromagnetic launchers
Author :
Burden, R.A. ; Gray, J.W. ; Oxley, C.M.
Author_Institution :
Culham Lab., UKAEA, Abingdon, UK
fDate :
1/1/1989 12:00:00 AM
Abstract :
The use of an explosive foil injection system (EFI) for imparting an initial velocity on a projectile prior to its entering the breech of a railgun is demonstrated. This will substantially reduce the dwell time of the main arc at the breech end of the rails, which will greatly reduce the rail and dielectric ablation of the bore when compared to standing start systems. The preinjection system uses a small capacitor bank (6 kJ at 15 kV) to explode a fine nickel chrome wire and a disk of aluminum foil. The explosive energy produced is harnessed in a 99.5% pure aluminum driving plate assembly, which is free to move in the direction of the projectile only. The projectile (9.9 mm cube of Lexan) is in contact with the driving plate via a driving slug and is thus propelled along a flight tube into the breech of the main railgun. Preinjection velocities of up to 300 m/s have been obtained with a stored energy of only 2.7 kJ
Keywords :
capacitor storage; electromagnetic launchers; power supplies to apparatus; projectiles; pulsed power technology; 15 kV; 2.7 kJ; 300 m/s; 6 kJ; Lexan; aluminium foil disk; aluminum driving plate assembly; bore; capacitor bank; dielectric ablation; driving slug; dwell time; electromagnetic launchers; explosive energy; explosive foil injection system; flight tube; initial velocity; main arc; nickel chrome wire; preinjection system; projectile; rail ablation; railgun; standing start systems; Aluminum; Boring; Capacitors; Dielectrics; Explosives; Nickel; Projectiles; Railguns; Rails; Wire;
Journal_Title :
Magnetics, IEEE Transactions on
