Title :
Effect of Geometry Change on the Deformation in C-Shaped Armatures Through 3-D Magnetic-Structural Coupling FE Analysis
Author :
Tao Huang ; Jiangjun Ruan ; Yujiao Zhang ; Yadong Zhang ; Junpeng Liao ; Yuanchao Hu
Author_Institution :
Sch. of Electr. Eng., Wuhan Univ., Wuhan, China
Abstract :
An armature is a key component in a rail gun the geometry directly affects the performance of the armature during the launching process, which can be easily destroyed by enormous forces. In order to guarantee the success of the electromagnetic launch (EML), a high-strength armature is greatly needed. In this paper, we focus on the deformation in the C-shaped armature caused by electromagnetic forces. A 3-D magnetic-structural coupling finite-element method is carried out to analyze the effect of different geometries. Four geometrical parameters are used to characterize the maximum deformation of the armature. These are the armature´s shoulder thickness, arm thickness, contact length, and inner curve radius. We get an effective conclusion for designing the high-mechanical-strength armature to improve the performance of the EML.
Keywords :
couplings; deformation; finite element analysis; geometry; mechanical contact; railguns; 3D magnetic-structural coupling FE analysis; 3D magnetic-structural coupling finite-element method; C-shaped armatures; EML; arm thickness; armature shoulder thickness; contact length; deformation; electromagnetic launch; geometry change effect; high-mechanical-strength armature; high-strength armature; inner curve radius; is; railgun; Current density; Electromagnetic forces; Force; Geometry; Rails; Strain; Armature; deformation; geometry; magnetic-structural coupling analysis; rail gun;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2251010
