Title :
DES 3 MJ-railgun experimental results at ISL
Author :
Wey, Jun Shan ; Lehmann, Patrick ; Peter, H.
Author_Institution :
ISL, St. Louis, France
Abstract :
A capacitor bank, consisting of two stages, is used for experiments with a 50 mm round bore railgun at a maximum current of 2 MA. The railgun is fed at two different points in order to test the DES-railgun concept. An appropriate design and material choice of metallic projectiles, accelerated from the rest position, allow the current to be injected at the front side and to be distributed over the whole armature. It is shown that the contact between rails and projectile is maintained with a dominant metallic value and transitioning to plasma arcs has been seen only during short time intervals. Accurate voltage and current measurements allow evaluating of the ohmic losses and energy partition in the whole system. Measured values of rail resistance and inductance gradient are presented and compared to numerical simulations. The results of several shots are presented and compared to theoretical predictions, For a stored energy of 1.96 MJ, an overall efficiency of 21% is obtained with a projectile mass of 437 g accelerated to a velocity of 1370 m/s.<>
Keywords :
digital simulation; electric current measurement; power capacitors; power engineering computing; power supplies to apparatus; projectiles; pulsed power technology; railguns; software packages; voltage measurement; 1.96 MJ; 1370 m/s; 2 MA; 21 percent; 3 MJ; 437 g; 50 mm; capacitor bank; current measurement; design; energy partition; inductance gradient; metallic projectiles; numerical simulation; ohmic losses; plasma arcs; rail resistance; railgun; rails; voltage measurement; Acceleration; Armature; Boring; Capacitors; Inorganic materials; Plasma measurements; Projectiles; Railguns; Rails; Testing;
Journal_Title :
Magnetics, IEEE Transactions on
