Title :
Analysis of launch induced motion of a hybrid electromagnetic/gas gun
Author :
Kathe, E. ; Gast, R. ; Vottis, P. ; Cipollo, M.
Author_Institution :
Benet Labs., US Army, Watervliet, NY, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
In recent years, great strides have been made regarding the identification of the dominant loads that cause beam type vibrations of cannons during ballistic operation. These motions infringe upon shot accuracy because at projectile disengagement, the muzzle´s kinematic state may compromise the projectile´s intended flight path. This is particularly relevant to coil gun loading, which, unlike gas launch, applies the recoil load to the muzzle end of the barrel instead of the breech. This effectively places the barrel in a state of columnar compression during the launch cycle that may exacerbate structural vibrations known as gun “whip”
Keywords :
ballistics; military equipment; projectiles; railguns; vibrations; weapons; ballistic operation; beam type vibrations; cannons; coil gun loading; columnar compression; dominant loads; hybrid electromagnetic/gas gun; kinematic state; launch cycle; launch induced motion; projectile disengagement; recoil load; shot accuracy; structural vibrations; whip; Acceleration; Boring; Coaxial components; Electromagnetic analysis; Electromagnetic launching; Guns; Kinematics; Motion analysis; Projectiles; Testing;
Journal_Title :
Magnetics, IEEE Transactions on
