High-Energy-Absorbing Enclosure for Internal Explosion Containment.

Abstract

A structural enclosure, box-like for many embodiments, which effectively contains an explosion, thereupon remaining virtually intact and minimizing fragmentation. The Structural wall has a Sandwich-like arrangement of two fiber-reinforced matrix material skins and a foam core situated between the two skins, at least one skin having fiber-reinforced high strain-to-failure viscoelastic matrix material. The core foam material selectively varies in density so as to provide appropriate rigidity or flexibility at different locations of the structural enclosure. The fiber-reinforced high Strain-to-failure viscoelastic matrix material can be deformed elastically to large strains, has demonstrably high energy-absorbing characteristics, and is relatively lightweight. Upon explosive impact, the inner skin largely deforms so as to be energy-absorbent of the pressure wave caused by the explosive charge, the foam core crushes so as to also be energy-absorbent, the outer skin largely deforms, and both skins contain debris.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Jun 15, 1995
Accession Number
ADD018413

Entities

People

  • Paul A. Coffin
  • Roger M. Crane

Organizations

  • United States Department of the Navy

Tags

Communities of Interest

  • Counter IED
  • Energy and Power Technologies
  • Weapons Technologies

DTIC Thesaurus Topics

  • Aircrafts
  • Composite Materials
  • Composite Structures
  • Explosions
  • Explosive Devices
  • Explosives
  • Glass Fibers
  • Graphitic Materials
  • High Energy
  • Material Degradation Processes
  • Materials
  • Materials Processing
  • Materials Testing
  • Reinforced Plastics
  • Reinforcing Materials
  • Resin Transfer Molding
  • Resins

Readers

  • Electrical Engineering
  • Structural Health Monitoring of Composite Structures.