Title :
Recent muzzle-fed railgun experiment on metal armature for arcless acceleration
Author :
Lototsky, A.P. ; Kareev, Yu.A. ; Nikolashin, A.A. ; Halimullin, Yu.A. ; Polulyah, E.P. ; Galanin, M.P. ; Kramtsovsky, S.S.
Author_Institution :
Troitsk Inst. for Innovation & Fusion Res., Russia
fDate :
1/1/1999 12:00:00 AM
Abstract :
The authors have continued the experimental and theoretical analysis of acceleration with metal armatures and muzzle-fed railguns, which earlier produced arcless accelerations up to V~2.5 km/s. They had to carry out a lot of work both for improving the structure of the channel itself and to obtain a better understanding of electrodynamic processes. A series of experimental measurements were performed on channel (10 mm×10 mm) deformation at various current levels. The mathematical model providing the 3-D simulation of processes in an electrodynamics accelerator channel includes the Maxwell system of equations in a quasi-stationary approximation, the heat conduction equation and the equation for kinematic characteristics of the accelerated armature. For systems of a large calibre, the authors suggest an improved channel design
Keywords :
Maxwell equations; approximation theory; electrodynamics; kinematics; railguns; 10 mm; 2.5 km/s; 3-D simulation; Maxwell equation; accelerated armature; arcless acceleration; channel structure design; electrodynamic processes; experimental measurements; heat conduction equation; kinematic characteristics; mathematical model; metal armature; muzzle-fed railgun experiment; quasi-stationary approximation; Acceleration; Current measurement; Electrodes; Electrodynamics; Mathematics; Maxwell equations; Railguns; Rails; Steel; Technological innovation;
Journal_Title :
Magnetics, IEEE Transactions on
