Title :
A theoretical and experimental study of the electromagnetic environment surrounding a magnetic induction launcher
Author :
Berning, Paul R. ; Hummer, Charles R. ; Le, Calvin D. ; Coburn, William O.
Author_Institution :
US Army Res. Lab., Aberdeen Proving Ground, MD, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
Electromagnetic (EM) field measurements were conducted near a prototype system that launches metal plates via EM induction. These plates are intended to augment a vehicle´s passive armor by intercepting incoming kinetic energy (KE) projectiles some distance away from the vehicle. The subscale EM induction launcher consists of two 4.5-turn, 15 cm square spiral coils machined from 1.27 cm thick copper-beryllium plate. This type of system is designed to launch a 15 cm square aluminum plate in an edge-on orientation as was done for an earlier design (see W. Coburn, C. Le, and H. Martin, US Army Research Laboratory Report ARL-MR-206, April 1995), both the short-term magnetic fields associated with the launch process and the long-term electric fields associated with the flying plate were measured. A theoretical model designed to simulate the magnetic fields surrounding the launcher has been developed and its results compare favorably with measured data
Keywords :
electric fields; electromagnetic fields; electromagnetic induction; electromagnetic launchers; magnetic fields; military equipment; projectiles; Al; Al plate; Cu-Be; Cu-Be plate; EM field measurements; EM induction; EM induction launcher; electromagnetic environment; flying plate; launch process; long-term electric fields; magnetic induction launcher; metal plates; short-term magnetic fields; single-stage coil gun; spiral coils; theoretical model; Electromagnetic fields; Electromagnetic induction; Electromagnetic launching; Electromagnetic measurements; Kinetic energy; Magnetic field measurement; Projectiles; Prototypes; Spirals; Vehicles;
Journal_Title :
Magnetics, IEEE Transactions on
