The Response and Failure Mechanisms of Circular Metal and Composite Plates Subjected to Underwater Shock Loading

Abstract

The response and failure mechanism of circular aluminum and S-2 glass fiber/polyester resin matrix composite panels in response to underwater shock loading were investigated. The response of the aluminum panels was compared to the characteristic response of thin circular metal plates subjected to shock loading with a good degree of correlation. The response of the aluminum panels was then used as a reference with which to compare the response of the composite panels. The response and failure mechanism of the composite panels were found to be highly dependent on the boundary conditions of the panel. For the conditions of this test series, in which the panel boundary was allowed limited motion in the radial direction, the response of the composite panel conditions of this test series, in which the panel boundary was allowed limited motion in the radial direction, the response of the composite panel was determined to be generally similar to the response of the aluminum panels, mitigated by the high strength in tension of the glass fiber. The failure mechanism appeared to be localized matrix failure in compression due to the high circumferential stresses generated as a result of the panel being forced into the smaller diameter test fixture by the shock wave. The radial motion of the panel edge allowed by the boundary conditions appears to have exacerbated the circumferential stresses. Keywords: Underwater shock, Undex, Fiber-reinforced Composite material, Failure response, Shock loading, Thin circular plates.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1990

Accession Number

ADA226759

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