Title :
Electromagnetic and thermal analysis of muzzle-fed railguns
Author :
Cardelli, Ermanno
Author_Institution :
Istituto di Energetica, Perugia Univ., Italy
Abstract :
The electrothermal behaviour of the muzzle-fed railgun configuration, proposed as remedy for the reduction of the velocity skin effect and its related losses in performance, is analysed in this paper by means of a suitable equivalent network approach, that is able to evaluate the distributions of the current density and the temperature in the conductive parts of the railgun. The use of magnetic field augmentation, both in self- and in external-augmented configuration, is proposed, to avoid too low values of the resulting accelerating action, and the dependence of the intensity of the augmentation on the geometrical factor is shown. Finally the possible effects in the reduction of the temperature rise located in the trailing edge zone, responsible for the transition of the armature from solid state to plasma arc are discussed by the analysis of the numerical simulation of shots presented.<>
Keywords :
arcs (electric); current density; electromagnetic fields; losses; magnetic fields; railguns; skin effect; temperature distribution; thermal analysis; conductive parts; current density distributions; electromagnetic analysis; electrothermal behaviour; equivalent network; external-augmented configuration; geometrical factor; magnetic field augmentation; muzzle-fed railguns; numerical simulation; performance losses; plasma arc; self-augmented configuration; solid state armature; temperature distribution; temperature rise reduction; thermal analysis; trailing edge zone; velocity skin effect; Current density; Electromagnetic analysis; Electrothermal effects; Magnetic analysis; Performance analysis; Performance loss; Plasma temperature; Railguns; Skin effect; Temperature distribution;
Journal_Title :
Magnetics, IEEE Transactions on
