October 7th, 2011

New Lego-like Composite Interlocking Walls Stop 50 BMG Rounds

Ballistics Research 3D IPS AABCHere’s an interesting invention from Ballistics Research, a Georgia-based security company that specializes in projectile barrier and containment systems. Ballistics Research has come up with a Interlocking Protection System (3-D IPS) that uses interlocking composite blocks — similar to giant Lego blocks — that will stop rounds up to .50 BMG. Two layers of blocks will even contain a 23mm cannon round. The Anti-Armor Ballistics Composite (AABC) blocks are lighter than concrete or other building materials, and they withstand repeated fire much better than old-fashioned sandbag stacks. Ballistics Research claims that its AABC composite is “the only material in existence that actually gains strength with incoming rounds.”

Ballistics Research 3D IPS AABC

Most conventional protection units available to the military and corporate worlds (like sandbags or concrete) are non-portable, or they degrade rapidly under sustained fire. Ballistics Research’s AABC™ material actually becomes stronger with multiple hits. In fact, each of the 3-D IPS blocks is capable of absorbing thousands of rounds of machine gun fire without failure.

Video Shows Effectiveness of 3-D IPS System
The Video below shows a 3-D IPS Block wall being tested first with a full-auto 5.56×45 M16, next an M60 machine gun firing 7.62×51 rounds, and finally a “Ma Deuce” shooting .50 Cal API M2HB Armor Piercing Rounds. This is all done at very close range. The AABC material soaks up ALL the projectiles. Very impressive indeed….

While 3-D IPS block installations are designed primarily for military compounds, or commercial sites (such as power plants) where high security is required. However, they can be used in any location where secure protection from high-velocity projectiles is required. For example, 3-D IPS blocks could be used for a down-range storage building on a shooting range. For more information, visit BallisticsResearch.com, call (678) 679-1973 or email: wayne@ballisticsresearch.com.