This video showcases a high-speed terminal ballistics test of Federal 120gr Fusion MSR ammunition in 6.5mm Grendel. Fired from a 16-inch AR-15 into calibrated 10% ordnance gelatin, the test meticulously records penetration depth, retained weight, and expansion characteristics. The data, including velocities, is presented with detailed measurements such as neck and TSC, offering valuable insights for firearm enthusiasts interested in the performance of this specific cartridge and bullet combination.
This video conducts a ballistic gel test comparing German MEN 5.56mm 55gr FMJ ammunition against the American M193 specification. The test is performed using a 10.5-inch AR-15 upper with a 1:7" twist barrel, firing into calibrated 10% ordnance gelatin. Velocities are recorded, averaging 2,612 fps, with penetration exceeding 16 inches. The video aims to evaluate if the German MEN ammunition performs comparably to established M193 standards.
This video conducts a ballistic gel test on Wolf 55gr Soft Point 5.45x39mm ammunition, aiming to determine if it's a viable defensive round. The description highlights the common issues with other 5.45mm rounds, such as rapid fragmentation or inadequate penetration. The test uses a 16" ROMAK rifle and a high-speed camera for detailed analysis. Links to TNVC, ARFCOM's Teespring store, and Aimed Research are provided.
This video tests the performance of CORBON .223 77gr Tipped Match King (TMK) ammunition fired from a 20-inch Colt AR-15 A2 rifle into calibrated 10% ordnance gelatin. The test aims to address concerns about whether higher velocity with this bullet might negatively impact penetration. Data on penetration depth, retained weight, and expansion are presented, along with detailed velocity statistics. The video also highlights the use of a high-speed camera provided by Aimed Research and promotes ARFCOM's merchandise.
This video tests the performance of Magtech 5.56mm 62gr FMJ ammunition fired from 10.5" and 16" AR-15 barrels into calibrated 10% ordnance gelatin. The test assesses penetration, retained weight, and expansion characteristics using a high-speed camera. Data is provided for velocities, penetration depths, and retained projectile weights for both barrel lengths, with detailed ballistic measurements for the 10.5" barrel. The video highlights the technical aspects of ammunition performance and is presented as an educational resource.
This video analyzes the terminal performance of 110-grain subsonic .223 Remington ammunition, specifically 'Silent Strike', using a 16-inch AR-15 platform. The test involves shooting the ammunition into calibrated 10% ordnance gelatin, with high-speed camera footage capturing the expansion and penetration. Ballistic data including penetration depth (19.5 inches), retained weight (109.7 grains), and velocities (average 1,024 fps) are provided. The discussion centers on whether subsonic .223 ammunition has a practical application despite its uncommon nature.
This video features an in-depth gel test of 123gr Power Strike ammunition for the .300 Blackout (300blk / 300 AAC) caliber. The test is conducted from an 8-inch barrel using calibrated 10% ordnance gelatin to evaluate penetration depth, expansion/fragmentation, and retained weight, addressing common concerns about over-penetration with .300 Blackout defensive rounds. High-speed camera footage from Aimed Research is utilized for detailed analysis. The video provides specific data on penetration (14.2"), retained weight (9.4gr), and velocity (average 2,376 fps), aiming to educate viewers on ammunition performance.
This video presents a terminal ballistic test of Allegiance Ammunition's 5.56mm 80gr Hog Strike rounds. Using a high-speed camera and 10% calibrated ordnance gelatin, the test evaluates the projectile's performance, including penetration depth (8.2 inches), retained weight (11.2 grains), and expansion characteristics (0" neck, 3" x 8" TSC). The velocities recorded averaged 2,255 fps with a low standard deviation, indicating consistent performance. The content is presented as an educational resource focusing on the technical aspects of ammunition.
This video performs a ballistic gel test on inexpensive Russian Barnaul 7.62x39mm 125gr Soft Point ammunition. Fired from a Romanian WASR-10/63 AK-pattern rifle with a 16" barrel, the test uses high-speed footage to analyze penetration depth, expansion, fragmentation, and retained weight. The results show the soft point's performance characteristics, with specific measurements provided for penetration (15.4"), retained weight (110.7gr), and maximum expansion (0.769"). Velocity data is also presented, with an average of 2,493 fps. The video also highlights Aimed Research's high-speed camera rental services.
This video tests the effectiveness of budget-friendly Fiocchi 55gr PSP .223 Remington ammunition for defensive use. Fired from a 10.5" 1:7" twist upper, the ammo is put through a calibrated 10% ordnance gelatin test to evaluate penetration, expansion, fragmentation, and retained weight. Key metrics like penetration depth (11.5"), retained weight (39.3gr), and expansion diameter are presented alongside velocity data. The video aims to determine if cheaper ammunition can be 'good enough' for critical applications.
This video showcases a gel test of Black Hills' 5.56mm Optimized 50gr TSX ammunition fired from a 10.5" AR-15 with a 1:7" twist barrel. The test aims to assess the ammunition's performance, specifically addressing speculation about its effectiveness from short barrels. High-speed camera footage captures the projectile's penetration, retained weight, and expansion in calibrated 10% ordnance gelatin, with detailed ballistic data presented. The video also provides links to the discussion thread on ARFCOM and aims to follow on social media.
This video performs a terminal ballistics test on Hornady's .223 Remington 73gr Critical Defense ammunition. Shot from a 10.5-inch AR-15 rifle into calibrated 10% ordnance gelatin, the test captures high-speed footage to analyze projectile performance. Key metrics like penetration depth (13.6 inches), retained weight (43.9 grains), and maximum expansion (0.605 inches) are presented, along with velocity data. The content aims to assess the effectiveness of this specific load for its intended applications.
