![]() ![]() Kind of like a soccer ball hitting a goal net. The strands are so strong, the bullet is unable to make a path through the fabric, and all of its energy dissipates outward. Kevlar worked in all of these scenarios (except for the shot at the edge of the vest) by utilizing interwoven strands of plastic polymers to physically block the ballistic trajectory of the bullet. But surprisingly, a bullet fired at the center of the vest ended up trapped, and never penetrated the back panel of the armor. ![]() When shot at one inch from its edge, the body armor crumpled under the force of the ammunition, and sort of folded inward toward the chest. The top of the vest did a terrible job at protecting the dummy from the bullet. Now, at point-blank, using a regular handgun, things got a little tricky. Again, at a distance of 45 feet, none of the rounds of buckshot succeeded in penetrating the body armor. If you look at the shot in slow motion, the force of impact was inarguably stronger, but the Kevlar managed to absorb and deflect the bullet as intended.Įven a 590 shotgun, as the video shows, didn't stand a chance against the vest. And by that, I mean if a real human were wearing it, they'd likely be alive. Tested against the same 9mm ammunition, but in a semi-automatic rifle, the vest was still pretty effective. In slow motion, it appeared to simply absorb the force of the bullet and bounce it off the dummy's chest. According to industry standards, this level of Kevlar is the best you can get for protecting yourself against blunt trauma injury.Īs you can see, at a distance of approximately 45 feet, a 9mm Glock pistol shot at a velocity of 1,100 feet per second was easily deflected by the vest. The vest in the video is a 3A armor level, which is tested to sufficiently withstand 9mm rounds. ![]()
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