Dynamic Response of Cantilevered Rail Guns Attributed to Projectile/Gun Interaction—Theory

Author

Tzeng, Jerome T. ; Sun, Wei

Author_Institution

Weapons & Mater. Res. Directorate, US Army Res. Lab., Aberdeen Proving Ground, MD

Volume

43

Issue

1

fYear

2007

Firstpage

207

Lastpage

213

Abstract

An analytic approach is proposed to investigate the dynamic behavior of laboratory rail guns resulting from launching a projectile. The rail gun is modeled as a beam of finite length sitting on an elastic foundation with cantilevered support at the breech end of rails. The structural response of the rail is governed by a transient fourth-order differential equation with an extra term of elastic support (containment and insulator) subjected to a transient forcing function (a moving magnetic pressure). The complete solution of the governing equation is derived and illustrated in details. The displacement solution can be further derived to obtain strain and stress profile as well as dynamic response of the rail gun. This paper mainly reports the theoretic solution which provides a step forward to predict the dynamic behavior of rail guns

Keywords

differential equations; dynamic response; railguns; stress-strain relations; cantilevered rail guns; dynamic response; elastic foundation; projectile-gun interaction; strain-stress profile; structural response; transient forcing function; transient fourth-order differential equation; Differential equations; Guns; Insulation; Laboratories; Magnetic field induced strain; Magnetoelasticity; Projectiles; Rails; Stress; Structural beams; Critical velocity; dynamics; electromagnetic gun; railgun;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2006.887444

Filename

4033118