The Damage and Failure of GRP Laminates by Underwater Explosion Shock Loading

Abstract

This paper examines the development of microstructural damage in a glass reinforced polymer (GRP) laminate when it is subjected to explosive shock loading in water. GRP is commonly used in the small naval vessels, and may be subjected to underwater explosions. In the experiments, the laminates were exposed to increasing levels of shock loading produced by underwater explosions. The laminates were backed with either water or air to modify the amount of bending the GRP laminate experienced under loading, with the air-backed laminates having the higher amount of bending. Examination of the GRP microstructure by optical and scanning electron microscopy after shock testing failed to reveal any damage to either the polymer matrix or glass fibres when the laminate was backed with water. In contrast, when the laminate was backed with air, small cracks were produced in the polymer matrix at low shock pressures. Raising the shock pressure above a threshold limit caused complete failure of the laminate by cracking in the polymer matrix, cracking of the glass fibres, and delamination of the glass fibres from the polymer. The differences in the shock resistance of the water- and air-backed GRP are discussed. Measurements of the residual tensile fracture strength of the laminates after shock, loading are also presented. The fracture strength of the water-backed laminate was not affected by shock, but the fracture strength of the air-backed laminate deteriorated with the onset of glass fibre breakage and delamination in the GRP microstructure

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 1993

Accession Number

ADA283793

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