Projectile-Impact-Induced Fracture of Liquid-Filled, Filament-Reinforced Plastic or Aluminum Tanks.

Abstract

An experimental evaluation was made of the impact-fracture characteristics of liquid-filled tanks with walls of several filament-reinforced plastic materials. Comparisons were also made with tank walls made of an aluminum alloy. The materials evaluated were glass-filament- reinforced urethane or epoxy, Dacron-filament-reinforced urethane, steel-wire-reinforced urethane, and 2014-T6 aluminum alloy. The liquid contained in each tank was either water or liquid nitrogen. The impacting projectiles were 7/32-inch-diameter spheres of steel or aluminum, which were accelerated to velocities of 5500 and 6500 feet per second, respectively. The glass-reinforced plastics were most resistant to impact-fracture damage; the Dacron-reinforced urethane was least resistant. The glass-reinforced plastic walls were also more resistant to fracture than the aluminum alloy walls. Impacts into liquid-nitrogen-filled cylindrical tanks with approximately 1/32-inch-thick walls of these materials resulted in bursting of an aluminum wall stressed prior to impact to only 10 percent of the material ultimate strength, compared with only a puncture and local delamination of the outer filament layer of glass-reinforced epoxy walls stressed prior to impact to as high as 40 percent of the material ultimate strength.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1966

Accession Number

ADA307044

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