Title :
Railgun electromagnetism
Author :
Calvin, H.A. ; Virostek, S.P.
Author_Institution :
Marine Div., Westinghouse Electr. Corp., Sunnyvale, CA, USA
Abstract :
Plasma armatures develop the driving force for accelerating projectiles in hypervelocity railgun applications. We have developed a lumped element description of the distributed plasma armature based on a knowledge of the armature current density distribution. We have also developed an improved technique to extract the armature current density distribution from the rail B-dot signals. Combining our model, the derived current density, and other experimental measurements, we have determined the voltage gradient along the armature, the armature conductivity, and the Lorentz force distribution. We suggest an explanation for the observed armature elongation, the development of secondary arcs, and primary armature separation.<>
Keywords :
arcs (electric); current density; electrical conductivity; plasma devices; plasma guns; projectiles; railguns; B-dot signals; Lorentz force distribution; armature conductivity; armature current density distribution; distributed plasma armature; driving force; hypervelocity railgun; lumped element description; observed armature elongation; plasma armatures; primary armature separation; projectiles acceleration; railgun electromagnetism; secondary arcs development; voltage gradient; Acceleration; Current density; Density measurement; Plasma accelerators; Plasma applications; Plasma density; Plasma measurements; Projectiles; Railguns; Rails;
Journal_Title :
Magnetics, IEEE Transactions on
