This paper presents an analytical model for the investigation of the gyroscopic stabilization of the launch package in induction-type coilguns. By a proper arrangement of coils and of their feeding currents, a traveling wave of flux density is produced, which is characterized by axial and azimuthal components of velocity. The resulting action exerted on a conductive cylinder has components in the same directions as the traveling wave. This produces a helical motion of the armature. Since the governing vector field equation is not separable in the cylindrical coordinate, an approach based on the second-order vector potential formulation has been adopted here.
Modeling of the gyroscopic stabilization in a traveling-wave multipole field electromagnetic launcher via an analytical approach
MUSOLINO, ANTONINO;RAUGI, MARCO;RIZZO, ROCCO;TRIPODI, ERNESTO
2015-01-01
Abstract
This paper presents an analytical model for the investigation of the gyroscopic stabilization of the launch package in induction-type coilguns. By a proper arrangement of coils and of their feeding currents, a traveling wave of flux density is produced, which is characterized by axial and azimuthal components of velocity. The resulting action exerted on a conductive cylinder has components in the same directions as the traveling wave. This produces a helical motion of the armature. Since the governing vector field equation is not separable in the cylindrical coordinate, an approach based on the second-order vector potential formulation has been adopted here.File | Dimensione | Formato | |
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