This YouTube Shorts video from Predator Armor showcases their Non-Ballistic Trauma Pads. The description emphasizes their function in protecting against injuries caused by back face deformation by dissipating impact energy and reducing transmitted force. The pads are designed to be comfortable when worn with body armor, utilizing high-density, flexible materials to absorb impact and reduce blunt force trauma. A link to the full video and the product on their website is provided.
This video features Kentucky Ballistics experimenting with body armor, a zombie torso, and 'elephant guns,' implying large caliber firearms. The content is presented as entertainment and educational, emphasizing that it's filmed in a controlled setting by trained professionals and should not be replicated. The video also includes calls to action for downloading a game (State of Survival), supporting the creator on Patreon, and checking out their merchandise and social media channels.
This video focuses on the Predator Armor Non-Ballistic Trauma Pads, highlighting their function in mitigating injuries from back face deformation when used with body armor. The description emphasizes how these high-density, flexible pads dissipate impact energy, reduce transmitted force, and absorb blunt force trauma, ultimately enhancing comfort. The video directs viewers to the Predator Armor website for purchasing these accessories.
This video provides an overview of Predator Armor's Non-Ballistic Trauma Pads. The description highlights their function in protecting against back face deformation and blunt force trauma by dissipating impact energy. These pads are engineered for comfort when worn with body armor and are designed to be compatible with Predator Armor's Level IIIA, Level III, and Level III+ armor plates. The pads are made from high-density, flexible materials to absorb impact. A link to purchase is provided.
This video, a collaboration between InRange TV and Primary & Secondary featuring Gary Hughes of Survival Armor, delves into the critical aspect of blunt force trauma in firearms protection. It demonstrates how different body armor materials, specifically steel, ceramic, and ceramic with a soft armor backer, impact the displacement of energy when a projectile is stopped. The focus is on understanding how armor choice and layering influence the reduction of blunt force trauma to the wearer, highlighting the practical implications for ballistic protection.
This video from Kentucky Ballistics investigates the energy transfer through old ceramic body armor when impacted by rifle and shotgun rounds. Using a block of clay behind the armor, the experiment visually demonstrates the potential for blunt force trauma caused by these impacts. Various popular calibers and loads are tested, including 5.56x45mm, 7.62x39mm, .30-06, and 12 Gauge slugs, with their muzzle velocities and energies clearly listed.
This video explores the significant impact of blunt force trauma when body armor is struck by a bullet, a factor often overlooked by many. The creator demonstrates what this trauma looks like and tests a specialized trauma pad designed to mitigate the damage caused by projectile impacts on armor. The content aims to educate viewers on the non-penetrating but still dangerous effects of ballistic impacts.
You've reached the end! 7 videos loaded.
