DocumentCode
106856
Title
Study of the Current Distribution, Magnetic Field, and Inductance Gradient of Rectangular and Circular Railguns
Author
Bayati, M.S. ; Keshtkar, A.
Author_Institution
Dept. of Electr. Eng., Razi Univ., Kermanshah, Iran
Volume
41
Issue
5
fYear
2013
fDate
May-13
Firstpage
1376
Lastpage
1381
Abstract
Two different geometries of the rail in an electromagnetic launcher are rectangular and circular. In this paper, rectangular and circular railguns are simulated and compared using the finite-element method. Rectangular and circular railguns are formed by two parallel copper rails. The surface area of the railgun bore is 9 cm2 and the surface area of the rail cross-section is 6 and 18 cm2. Current distribution (J), magnetic field intensity (H), and inductance gradient (L´) are computed for the two aforementioned bore geometries, and the results are compared together. In the circular railgun, L´ is a function of the opening angle of the rails (θ), inner radius (Ri), and outer radius (Ro). Different values for θ, Ri, and Ro, in practical range, are used to compute L´. By analyzing the numerical and theoretical results, it can be shown that the magnetic flux density in the middle of the circular railgun is a descending function according to the central angle. Finally, strengths and weaknesses of the rectangular railgun in comparison with the circular railgun are discussed.
Keywords
current distribution; geometry; inductance; magnetic fields; magnetic flux; numerical analysis; railguns; circular railgun; current distribution; electromagnetic launcher; finite-element method; inductance gradient; magnetic field; magnetic flux density; magnetic held intensity; parallel copper rails; rectangular railgun; Current density; Current distribution; Finite element analysis; Geometry; Inductance; Railguns; Rails; Circular railgun; current distribution; finite-element method (FEM); inductance gradient; rectangular railgun;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2013.2251477
Filename
6486550
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