论文信息 - Transition Study of Current Distribution and Maximum Current Density in Railgun by 3-D FEM–IEM

Transition Study of Current Distribution and Maximum Current Density in Railgun by 3-D FEM–IEM

The intelligent estimation method (IEM) is based on approximations which can be described by the configuration and behavioral characteristic of the problem. This paper used the IEM in time domain (IEM-TD) which can be utilized to predict the current distribution and maximum current density. A detailed IEM technique to compute the current distribution over the surface of a rail, current profile around the rail, and maximum current density (Jmax) formula will be presented in this paper. The current distribution is computed for rectangular and circular rails that are shown in color figures. Finally, this paper considers the effect of the rail dimensions and material on these parameters that are shown in several figures. The results of this paper are compared to other published studies and FEM simulation.

A. Keshtkar | M. Bayati | M S Bayati | A Keshtkar

[1] Sikhanda Satapathy,et al. Effect of geometry change on the current density distribution in C-shaped armatures , 2003 .

[2] Jun Li,et al. Numerical Simulation of Current Density Distributions in Graded Laminated Armatures , 2007, IEEE Transactions on Magnetics.

[3] Bok-Ki Kim,et al. Effect of rail/armature geometry on current density distribution and inductance gradient , 1999 .

[4] A. Keshtkar,et al. Derivation of a Formula for Inductance Gradient Using Intelligent Estimation Method , 2008, IEEE Transactions on Magnetics.

[5] A. Keshtkar,et al. Effect of Rail's Material on Railgun Inductance Gradient and Losses , 2008, 2008 14th Symposium on Electromagnetic Launch Technology.

[6] J. Kerrisk. Electrical and thermal modeling of railguns , 1984 .