RIP ammo vs Ballistics Gel - RatedRR Slow Mo
RIP ammo vs Ballistics Gel - RatedRR Slow Mo
Click HERE to subscribe to GUNS: http://bit.ly/1lw6XpS
Main Video: http://www.youtube.com/watch?v=PTpceymbX6w
RIP ammo vs Watermelon: http://youtu.be/bP2H_pP6uhg
RIP ammo vs Water Bottle: http://youtu.be/fObgiaKTDNQ
RIP ammo vs Pineapple: http://youtu.be/H4yycUtOjrU
RIP ammo vs Apple: http://youtu.be/mxDiTPYe950
RIP ammo fired out the HK P30L: http://youtu.be/YNiSNRTuvpo
RIP ammo vs Water Balloon: http://youtu.be/3-p21MyMntw
RIP ammo vs Ballistics Gel: http://youtu.be/6sas9N3OmuM
RIP ammo vs Drywall: http://youtu.be/XU2YSAeutTM
RIP ammo vs Insulated Drywall: http://youtu.be/7cn68srLIxM
RIP ammo vs Concrete Cinder Block: http://youtu.be/hfAtvy73bX8
The FBI block used in my videos was from Clear Ballistics gel. See more about it here:
http://clearballistics.com
The invention of the G2R's projectile R.I.P.™ is related to the ability to control the way the projectile reacts as it passes through different mediums by control of the mfg process, geometry and the rate of failure at different zones along its axial length. More particularly but not limited to the ability to take the projectile and predictably have it stay solid in one medium but yet have the exact same projectile predictably react as a fragmenting bullet through a different medium without alteration of the projectile. The geometry at the tip of the projectile has much to do with the way the projectile travels through tissue. It has been long known in the medical industry that a trocar point penetrates the dermis layer more efficiently. Patents for trocars appeared early in the 19th century, although their use dated back possibly thousands of years. It is the use of this geometry at the front end of the projectile that does specific work at the point of entry from one system to the next. Dependent on the medium the projectiles geometry is designed to react differently.
Imagine a Hole saw. The hole saw action that occurs at points of entry into different mediums reduce initial drag which allow the hollow cavity in the center of the projectile to rapidly pack. In the case of plywood the hole saw action cleanly cuts and packs the projectile with a slug that makes it solid thus allowing it to conserve more of its energy. This performance could prove to be very effective for law enforcement that may be in a situation where the target is behind such an obstacle whereas more energy will be carried into the intended target and not lost in the obstacle.
In a fluid the projectile fragments. Due to the trocar geometry of each petal the resulting diameter of the fragmentation pattern is maximized. The trocar tips allow the fragments to swim through tissue / gel with less resistance thus conserving energy. The cross sectional thicknesses and geometries also create a full 180 degree flip halfway along each of the 8 petals path. The resulting shock wave and wound path is maximized. The result is devastating.
The G2 Research R.I.P. 9mm:
* Up to 6" diameter spread
* 96 gr projectile
* 2" grouping at 25 yrds
* 1265 FPS / 370 Muzzle Energy
* 9 Separate Wound Channels
* Precision Machined
* Solid Copper / Lead Free
Видео RIP ammo vs Ballistics Gel - RatedRR Slow Mo канала Guns
Click HERE to subscribe to GUNS: http://bit.ly/1lw6XpS
Main Video: http://www.youtube.com/watch?v=PTpceymbX6w
RIP ammo vs Watermelon: http://youtu.be/bP2H_pP6uhg
RIP ammo vs Water Bottle: http://youtu.be/fObgiaKTDNQ
RIP ammo vs Pineapple: http://youtu.be/H4yycUtOjrU
RIP ammo vs Apple: http://youtu.be/mxDiTPYe950
RIP ammo fired out the HK P30L: http://youtu.be/YNiSNRTuvpo
RIP ammo vs Water Balloon: http://youtu.be/3-p21MyMntw
RIP ammo vs Ballistics Gel: http://youtu.be/6sas9N3OmuM
RIP ammo vs Drywall: http://youtu.be/XU2YSAeutTM
RIP ammo vs Insulated Drywall: http://youtu.be/7cn68srLIxM
RIP ammo vs Concrete Cinder Block: http://youtu.be/hfAtvy73bX8
The FBI block used in my videos was from Clear Ballistics gel. See more about it here:
http://clearballistics.com
The invention of the G2R's projectile R.I.P.™ is related to the ability to control the way the projectile reacts as it passes through different mediums by control of the mfg process, geometry and the rate of failure at different zones along its axial length. More particularly but not limited to the ability to take the projectile and predictably have it stay solid in one medium but yet have the exact same projectile predictably react as a fragmenting bullet through a different medium without alteration of the projectile. The geometry at the tip of the projectile has much to do with the way the projectile travels through tissue. It has been long known in the medical industry that a trocar point penetrates the dermis layer more efficiently. Patents for trocars appeared early in the 19th century, although their use dated back possibly thousands of years. It is the use of this geometry at the front end of the projectile that does specific work at the point of entry from one system to the next. Dependent on the medium the projectiles geometry is designed to react differently.
Imagine a Hole saw. The hole saw action that occurs at points of entry into different mediums reduce initial drag which allow the hollow cavity in the center of the projectile to rapidly pack. In the case of plywood the hole saw action cleanly cuts and packs the projectile with a slug that makes it solid thus allowing it to conserve more of its energy. This performance could prove to be very effective for law enforcement that may be in a situation where the target is behind such an obstacle whereas more energy will be carried into the intended target and not lost in the obstacle.
In a fluid the projectile fragments. Due to the trocar geometry of each petal the resulting diameter of the fragmentation pattern is maximized. The trocar tips allow the fragments to swim through tissue / gel with less resistance thus conserving energy. The cross sectional thicknesses and geometries also create a full 180 degree flip halfway along each of the 8 petals path. The resulting shock wave and wound path is maximized. The result is devastating.
The G2 Research R.I.P. 9mm:
* Up to 6" diameter spread
* 96 gr projectile
* 2" grouping at 25 yrds
* 1265 FPS / 370 Muzzle Energy
* 9 Separate Wound Channels
* Precision Machined
* Solid Copper / Lead Free
Видео RIP ammo vs Ballistics Gel - RatedRR Slow Mo канала Guns
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
20mm vs Ballistics Gel1 million fps Slow Motion video of bullet impacts made by Werner Mehl from KurzzeitGECO HexagonIncredible Super Slow Motion Bullet Impact! - M855A1G2 Research R.I.P. 9mm Ammo ReviewElephant Rifle vs Ballistic GelHow Hard Can You Hit a Golf Ball? (at 100,000 FPS) - Smarter Every Day 2169mm Lehigh "Xtreme Penetrator" Ammo ReviewG2 Research R.I.P. Shotgun Slugs - FIRST! TestsThe Scariest Shotgun Slug you'll ever seeWill Bulletproof Glass Stop A .50 Cal? slow motion Richard Ryan9mm vs Ballistic Gel Human Head!!!!!OATH Expanding TSR 12 gauge Slug FULL REVIEWIMPRESSIVE new 12ga Slug - A hollow point IN a hollow point - yep9mm vs .357 Sig vs 10mm vs 5.7x28mm vs Ballistic GelInternal "turbine" drill bit slug experimentHollow Point Bullet Through GelatineBARRETT .50 CAL vs. BALLISTICS GEL! 50 BMG ballistics testing in SUPER SlowMo (4K)Glass Shotgun Slugs - Your Worst Nightmare