This video, titled 'Qual a resistência do drywall a balas?' (What is the resistance of drywall to bullets?), explores the ballistic performance of drywall. While the title suggests a focus on projectile penetration and the structural integrity of drywall when subjected to gunfire, no specific firearms, calibers, or manufacturers are mentioned in the provided title and description. The video likely demonstrates or explains how different types of ammunition or firearms might perform against this common building material, relevant for understanding home defense, construction, or even the effects of stray bullets.
This video conducts a test to determine how much drywall is required to stop various 12 gauge shotgun projectiles. It compares the penetration capabilities of birdshot, buckshot, and a slug against drywall, providing a visual demonstration of their impact and stopping power. The experiment aims to offer practical insights into the effectiveness of these common shotgun loads in different scenarios.
This video conducts a bulletproof test on drywall, evaluating its resistance against different firearms. The experiment likely aims to demonstrate the penetration capabilities of various guns and calibers through a common building material. Viewers can expect to see the effectiveness (or lack thereof) of different firearms in breaching drywall, providing insights into projectile behavior and material strength in a defensive or tactical context.
This YouTube Short tests the ballistic resistance of common drywall materials against 5.56 caliber rounds. The video aims to inform viewers about the bulletproofing capabilities of everyday home construction materials, with the goal of making surroundings safer. It encourages viewers to visit their website for more details and exclusive content, and to like, subscribe, and hit the bell icon for future experiments on home safety and creating bulletproof walls or rooms.
This YouTube Short explores the ballistic resistance of 30 layers of drywall against unknown threats, aiming to educate viewers on home safety and what constitutes "bulletproof." The video promises to reveal surprising results and offers a deeper dive into making homes safer. It encourages viewers to visit their website for more information and to subscribe for future experiments and practical tests. The content focuses on material testing for defensive purposes.
This YouTube Short explores the durability of drywall, likely in the context of firearms testing or tactical demonstrations. The video uses hashtags related to special forces, military, and general lifestyle tips, suggesting a practical application or a discussion around the resilience of common building materials in potentially intense scenarios. It aims to provide insights into how drywall withstands impact, possibly relevant for training, property damage discussions, or even home defense considerations.
This video from CajunBoyJake investigates the penetration capabilities of three common firearm projectiles through simulated interior walls. The test utilizes 13 layers of drywall to determine how far .22LR, 5.56mm ball ammunition, and #4 Buckshot from a 12 gauge shotgun will travel. The content aims to provide practical insights for home defense scenarios, emphasizing safety and understanding projectile behavior within a residential environment. The presenter encourages viewers to subscribe for more "real-deal gun knowledge."
This YouTube video showcases a .50 caliber sniper rifle being used to shoot through drywall, humorously referred to as 'little dingers and big ole bangers.' The description mentions the location is Arizona and promotes various sponsors including gun holsters, gun stands, and an entrepreneur internship program. It also includes affiliate links for Instagram accounts and mentions the editor. The video emphasizes safety protocols, stating all activities are supervised and conducted in safe areas with cleanup efforts. Business inquiries are directed to a provided email address.
This video appears to be a test of drywall's bullet resistance, likely featuring firearms as indicated by the title and description hashtags. Content creators like Demolition Ranch often conduct destructive tests on various materials, and the mention of "fullautofriday" suggests the potential use of automatic weapons. The video will likely demonstrate the impact and penetration of bullets through drywall, providing a visual and possibly informative look at the material's protective capabilities against firearm projectiles.
This video pits 9mm against .45 ACP in a penetration test, specifically shooting through a stud and drywall from 7 yards. Retired Navy SEAL "Coch" conducts the test, aiming to determine which caliber offers greater penetration. The description also teases a future video comparing 5.56mm and 300 Blackout through wood panels. Viewers are encouraged to participate in a contest by predicting the outcome, with a prize for correct answers. The video promotes the "Tactical Hyve" brand and its social media channels.
This video from the U.S. Concealed Carry Association (USCCA) addresses a critical question for homeowners: can interior drywall and 2x4 framing provide protection during a home invasion involving gunfire? Director of Content Kevin Michalowski explains that while these materials offer concealment, they do not provide bullet-stopping cover. He differentiates between cover and concealment, emphasizing that drywall will not stop bullets for either the homeowner or the invader. The video advocates using concealment to gain a tactical advantage while hiding and preparing to fight. It concludes with a reminder of the shooter's responsibility for every round fired.
This video conducts a ballistic test to evaluate wall penetration by common firearms and ammunition. It builds various wall types, including drywall, cinder block, red brick, and trailer home walls, to simulate real-world scenarios. Firearms tested include a rifle, pistol, and shotgun, with a focus on common military-grade ammunition like 9mm ball and 5.56mm FMJ. Ballistic gelatin is used to measure energy transfer after penetration, providing data to address common opinions on over-penetration in home defense situations.
