Analysis of the Fragmentation of AlON and Spinel Under Ballistic Impact

Author:

Strassburger Elmar1,Hunzinger Martin2,Patel Parimal,McCauley James W.3

Affiliation:

1. e-mail:

2. Fraunhofer Institute for High-Speed Dynamics, Ernst-Mach-Institute (EMI), Am Christianswuhr 2, 79400 Kandern, Germany

3. U.S. Army Research Laboratory, AMSRD-ARL-WM-MD, Aberdeen Proving Ground, MD 21005

Abstract

It has been demonstrated that significant weight reductions can be achieved, compared to conventional glass-based armor, when a transparent ceramic is used as the strike face on a glass-polymer laminate. Magnesium aluminate spinel (MgAl2O4) and AlON are promising candidate materials for application as a hard front layer in transparent armor. Comprehensive, systematic investigations of the fragmentation of ceramics have shown that the mode of fragmentation is one of the key parameters influencing the ballistic resistance of ceramics. In the study described here, the fragmentation of AlON and three types of spinel was analyzed: two types of fine grained spinel with nominal average grain sizes 0.6 μm and 1.6 μm and a bimodal grain-sized spinel with large grains of 250 μm size in a fine grain (5–20 μm) matrix were examined. The ceramic specimens of 6-mm thickness were glued to an aluminum backing and impacted with armor piercing (AP) projectiles of caliber 7.62 mm at two different velocities—850 m/s and 1100 m/s. The targets were integrated into a target box, which allowed for an almost complete recovery and analysis of the ceramic fragments. Different types of high-speed cameras were applied in order to visualize the different phases of fragment formation and ejection. A laser light-sheet illumination technique was applied in combination with high-speed cameras in order to determine size and speed of ejected ceramic fragments during projectile penetration. The application of the visualization techniques allowed for the analysis of the dynamics of the fragment formation and interaction with the projectile. A significant difference in the fragment size distributions of bimodal grain-sized spinel and AlON was observed.

Publisher

ASME International

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference19 articles.

1. Transparent Armor;AMPTIAC Q.,2000

2. Transparent Ceramics for Armor and EM Window Applications;Proc. SPIE,2000

3. Ballistic Testing of Transparent Armour Ceramics;J. Eur. Ceram. Soc.,2009

4. Fragmentation of Ceramics Under Ballistic Impact;Proc. of 25th Int. Symposium on Ballistics,2010

5. Physics of Glass Failure During Rod Penetration;Ceram. Eng. Sci. Proc.,2009

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