• DocumentCode
    3189413
  • Title

    Thermal Stresses Analysis of the Rails and the Armature of an Electromagnetic Launcher

  • Author

    Ghassemi, Majid ; Varmazyar, Mostafa

  • Author_Institution
    K.N. Toosi Univ. of Technol., Tehran
  • fYear
    2008
  • fDate
    10-13 June 2008
  • Firstpage
    1
  • Lastpage
    6
  • Abstract
    In an electromagnetic launcher, the magnetic field creates a dynamic force that moves the armature forward. During the launch, electrical current creates high body forces and temperature distribution in the rails and the armature. As a result the rails and armature experience high amplitude stress and strain which damage the rails and the armature and reduces their life span. The purpose of this paper is to investigate the effect of body force as well as the temperature distribution on the displacement of the rails in an electromagnetic launcher. In this study the physical and geometrical properties of the rails are constant in location. In our formulation of governing non-linear differential equations, Maxwell, Energy equation and Navier equation are applied to the rails under dynamic loading. To solve the non-linear governing differential equations a finite difference base code is developed and utilized. It is shown that the Maximum volumetric forces take place where the highest magnetic field gradient occurs. In addition, the maximum magnetic force is accumulated at the trailing edge of the armature and portions of the rail interior. The thermal stresses distribution follows the same trend as displacement due to temperature behavior of the rails.
  • Keywords
    Maxwell equations; electromagnetic launchers; magnetic fields; nonlinear differential equations; temperature distribution; thermal stresses; Energy equation; Maximum volumetric forces; Maxwell equation; Navier equation; armature; electrical current; electromagnetic launcher; finite difference base code; magnetic field; magnetic force; nonlinear differential equations; rails; temperature distribution; thermal stresses analysis; Differential equations; Electromagnetic analysis; Electromagnetic forces; Electromagnetic launching; Magnetic field induced strain; Maxwell equations; Nonlinear equations; Rails; Temperature distribution; Thermal stresses;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Electromagnetic Launch Technology, 2008 14th Symposium on
  • Conference_Location
    Victoria, BC
  • Print_ISBN
    978-1-4244-1832-9
  • Electronic_ISBN
    978-1-4244-1833-6
  • Type

    conf

  • DOI
    10.1109/ELT.2008.92
  • Filename
    4657652