Parametric Study of a Finite Element Model of the Sidewinder Missile.

Abstract

The long range Maritime Patrol mission has evolved and expanded such that the U. S. Navy's maritime patrol aircraft (P-3C Orion) has become an attractive platform from which to employ a wide variety of air launched weapons. Specifically the need for a stand alone air-to-air defensive capability was identified. In 1989 the Naval Air Test Center at Patuxent River, Maryland began investigations for this through the P-3C/AIM-9 integration program. Naval Postgraduate School responded to this with the construction of a ground vibration test stand and the conduction of a preliminary vibrational characterization of the AIM-9 missile. From these tests a two degree of freedom lumped mass model was developed along with the determination of the primary and secondary missile resonate modes in pitch. In addition, a mathematical model of the AIM-9 missile was developed using finite element techniques. This model was used to analytically determine the modal parameters of the missile and set up a modal parameters of the missile and set up a model test system to experimentally verify the model parameters in view of natural frequencies, mode shapes and transient response.... Finite element analysis, Model shapes.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1993

Accession Number

ADA267245

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