Microstructure and Dynamic Failure Properties of Freeze-Cast Materials for Thermobaric Warhead Cases

Abstract

We consider the microstructure and dynamic failure of ice-templated freeze cast alumina materials that are currently being studied for novel warhead cases. The freeze-cast matrix is a porous, cellular structure of overlapping lamellae similar to many biomaterials such as nacre. This lightweight matrix provides a high-toughness shell that can be filled with polymers or combustible reactive materials. Three porosities of alumina freeze-cast structures were studied, and a systematic variation in microstructural properties such as lamellar width and thickness was observed with changing porosity. Dynamic impact tests were performed in a single stage light-gas gun to examine the failure properties of these materials under high strain-rate loading. Nearly complete delamination was observed under impact, along with characteristic cracking across the lamellar width. Average fragment size decreases with increasing porosity, and a theoretical model was developed to explain this behavior. Based on an energy balance between kinetic, strain, and surface energies within a single lamella, we are able to predict the characteristic fragment size using only standard material properties of bulk alumina.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2012

Accession Number

ADA574034

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