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November 8th, 2023
 Many visitors to the site ask us, “I’ve got a .223 and .308. What will a 6mmBR Norma (6BR) give me that I’m not getting already?” Well first you will probably average consistently smaller groups than your current .223 or .308 rifle (assuming the 6BR has a quality barrel and trigger). A good .308 Winchester can be superbly accurate, no question about that, but the lesser recoil of the 6BR works in the shooter’s favor over a long string of fire. Even with a Rem 700 or Savage action factory action, a 6BR with a benchrest stock, premium barrel, and a high-quality chambering job should deliver 5-shot groups in the high twos to mid-threes, provided you do your job. We have one 6BR rifle that shoots Lapua factory-loaded 6BR ammunition in the low twos and high ones. That’s exceptional, we admit, but it still shows how the 6BR is an inherently accurate cartridge, even with factory loads.
Compared to a .223, the 6BR offers a much better selection of high-BC projectiles, and will deliver considerably more power on the target. So it’s a better choice for hunters and 600-yard benchrest shooters. Compared to the .308 Win shooting 168gr MatchKings, a 6BR shooting 105-107gr bullets offers better ballistics all the way out to 1000 yards. Plus, for most people, the 6BR is just easier to shoot than a .308 Win. Recoil is less than half of the .308 Win cartridge. Both the .308 and 6BR chamberings offer good barrel life, but the 6BR uses 15-18 grains less powder, saving you money. On the other hand the .308 Win is the designated cartridge for F-TR and Palma shooting, so it may be a more versatile chambering for Long-Range competition. So which would we choose between the 6BR and the .308? Actually we think you should have both. The 6BR is a favorite cartridge out to 500 yards, and we like the .308 Win for F-TR. The .308 Win has shown outstanding accuracy, as displayed last week at the NRA F-class Nationals in Arizona.
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November 3rd, 2016
Many visitors to the site ask us, “I’ve got a .223 and .308. What will a 6mmBR Norma (6BR) give me that I’m not getting already?” Well first you will probably average consistently smaller groups than your current .223 or .308 rifle (assuming the 6BR has a quality barrel and trigger). A good .308 Winchester can be superbly accurate, no question about that, but the lesser recoil of the 6BR works in the shooter’s favor over a long string of fire. Even with a Rem 700 or Savage action factory action, a 6BR with a benchrest stock, premium barrel, and a high-quality chambering job should deliver 5-shot groups in the high twos to mid-threes, provided you do your job. We have one 6BR rifle that shoots Lapua factory-loaded 6BR ammunition in the low twos and high ones. That’s exceptional, we admit, but it still shows how the 6BR is an inherently accurate cartridge, even with factory loads.
Compared to a .223, the 6BR offers a much better selection of high-BC projectiles, and will deliver considerably more power on the target. Compared to the .308 shooting 168gr MatchKings, a 6BR shooting 105-107gr bullets offers better ballistics all the way out to 1000 yards. Plus, for most people, the 6BR is just easier to shoot than a .308. Recoil is less than half of the .308 cartridge. Both the .308 and 6BR chamberings offer good barrel life, but the 6BR uses 15-18 grains less powder, saving you money. On the other hand the .308 is the designated cartridge for F-TR and Palma shooting, so it may be a more versatile chambering for Long-Range competition. So which would we choose between the 6BR and the .308? Actually we think you should have both. The 6BR is my favorite cartridge out to 500 yards, and I like the .308 Win for F-TR. And… if you want to shoot at the World Fullbore Championships this week at Camp Perry there’s only one choice — a .308 Win.
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September 6th, 2015
For a prone shooter, particularly on dusty, dirty or sandy ground, muzzle blast is a major bummer. Muzzle blast can be very disturbing — not just for the trigger-puller but for persons on either side of the gun as well. Some muzzle brakes send a huge shockwave back towards the shooter, and others send blast towards the ground, kicking dirt and debris into the prone shooter’s face. If there was a way to illustrate those factors — shockwave and debris — that might help shooters select one brake design over another.
Cal Zant at PrecisionRifleBlog.com applied a unique blend of creativity and resourcefulness to try to answer that question for 20+ muzzle brakes. Using high-speed photography and household products, he captured the blast pattern of 20+ different brake designs for easy side-by-side comparison. Can you figure out how Cal managed to show muzzle brake blasts so clearly? His “hi-viz” solution, revealed in the article, is very clever. See the eye-opening results for 20+ brakes, with illustrative photos, by visiting the Precision Rifle Blog Muzzle Brake Ground Signature Test Page.
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July 21st, 2014
Muzzle brakes are controversial. Some people swear by them, while others swear at them. Still, there’s no question that a good brake can reduce felt recoil up to 45%. And likewise, the best brakes, when installed properly, seem to have no negative effect on accuracy.
Roy Bertalotto has done considerable experimentation with muzzle brakes, testing dozens of brake designs on his own rifles over the past few years. Roy’s article, Adventures with Muzzle Brakes, discusses various aspects of muzzle brake design and performance. Roy doesn’t claim that his testing is definitive, but his article is definitely worth a read. Here are some of Roy’s interesting findings:
Exit Hole Diameter
“Best accuracy and effectiveness of the brake was obtained with a hole .020″ over bullet diameter. If the exit hole is too small, such as +.005″ over bullet diameter, accuracy suffers. If the depth of the exit hole is too shallow, the metal around the hole will erode very quickly.”
Hole Placement
“The most effective braking was with a brake 1″ in diameter with a 3/4″ exit hole on each side, just in front of the muzzle. The bullet passes through a cone of 35 degrees before it exits the brake. (Like the tank example), Incredible reduction of recoil. But loud and ugly. Very easy to make since you don’t need a spin fixture or a dividing head.”
Bottom Gas Venting Helps Accuracy
“In my tests, not having holes all around the brake effects accuracy a bit. I believe it does something to the bullet by the air pushed ahead of the bullet creating unequal turbulence in the bullet path. I’ve tried a few brakes where I drilled only holes on the top, test fired, and then completed holes on the bottom and in every case, accuracy improved.” Below are spiral-ported brakes crafted by Clay Spencer.
Brakes Work Best with High-Pressure Cartridges
“The higher the pressure of the particular round, the more effective the brake. I have over 20 rifles with brakes. The 220 Swift is the king of reduction. Followed very closely by the 25-06, 6mm Remington, any Weatherby small bore. With a proper brake and a hot handload under a 40 gr bullet, the Swift will move 1/2″ to the rear and 0 muzzle rise! Big boomers with low pressure like 45-70s and shot guns benefit the least.” [Editor’s Note: Roy is judging effectiveness by the percentage of recoil reduction rather than absolute levels of recoil. Obviously if you start with a heavier-recoiling round, the absolute amount of recoil energy reduction is greater. Roy is really talking about efficiency–brakes are most efficient when used with high-pressure cartridges.]
Installation is Key to Accuracy
Roy’s findings are fascinating and suggest that further study of muzzle brakes is warranted. But we can all agree that precision installation of the brake is essential for accuracy. A poorly-installed, mis-aligned brake will degrade accuracy, that is well-known.
Harrell’s Precision has made thousands of muzzle brakes, in many styles and port arrangements. The Harrell brothers offer some good advice for gunsmiths installing brakes: “Muzzle brakes aren’t magic, they reduce recoil by redirecting exiting gas. What’s important is that they are straight and the threads are perpendicular with the base. The only way to get the base and threads perpendicular is to thread, not tap, them on a lathe.”
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March 12th, 2014
 NRA Media recently released a series of informative videos about the Science of Shooting. These videos feature high production values, with super-slow motion segments, as well as helpful computer graphics to illustrate the principles covered.
The videos are narrated by our friend Jessie Duff, a top action pistol shooter (and the first women ever to achieve USPSA Grand Master status). Jessie is assisted by talented shooters such as Top Shot Season 4 Champion Chris Cheng.
There are eight (8) videos in the Firearm Science Video Series. Here are two videos, with links to the rest below.
RECOIL — The Physics of Recoil Explained
While this video focuses on handguns, the principles involved apply to all firearms. The force of recoil is affected by the mass of the firearm, and by the speed and weight of the projectile. On a revolver, as shown in the video, there are various phases of recoil. Grip, and “compensation” porting can change the perceived force of recoil (though the energy is constant for any given ammunition specification).
VELOCITY — Calculating the Speed of a Bullet
This video shows a conventional chronograph with front and rear light sensors. The bullet first trips the front sensor and then the rear sensor as it flies over the unit. The difference in sensor time is used to calculate bullet speed. This is not the only kind of chrono in common use today. The popular MagnetoSpeed chrono works by tracking the bullet as it passes over two magnetic sensors mounted on a bayonet-style fixture on the barrel. Steinert Sensing Systems offers an Acoustic Chronograph that works by measuring the bullet’s supersonic shock-wave. This system has a much larger “sweet spot” than most optical chronographs. Last (but certainly not least) is the brand new Doppler Radar chronograph from MyLabradar.com. This can measure the speed of a bullet without the need to send the round directly over sensors.
Interestingly, this video also explains how, in the days before electric lamps, digital processors, and radar, scientists used a mechanical “Ballistic Pendulum” to calculate bullet velocity using Newtonian physics. The Ballistic Pendulum was first used in the mid 1700s. We have come a long way since then.
Other Firearm Science Videos
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February 6th, 2013
Many visitors to the site ask us, “I’ve got a .223 and .308. What will a 6mmBR Norma (6BR) give me that I’m not getting already?” Well first you will probably average consistently smaller groups than your current .223 or .308 rifle (assuming the 6BR has a quality barrel and trigger). A good .308 Winchester can be superbly accurate, no question about that, but the lesser recoil of the 6BR works in the shooter’s favor over a long string of fire. Even with a Rem 700 or Savage action factory action, a 6BR with a benchrest stock, premium barrel, and a high-quality chambering job should deliver 5-shot groups in the high twos to mid-threes, provided you do your job. We have one 6BR rifle that shoots Lapua factory-loaded 6BR ammunition in the low twos and high ones. That’s exceptional, we admit, but it still shows how the 6BR is an inherently accurate cartridge, even with factory loads.
Compared to a .223, the 6BR offers a much better selection of high-BC projectiles, and will deliver considerably more power on the target. Compared to the .308 shooting 168gr MatchKings, a 6BR shooting 105-107gr bullets offers better ballistics all the way out to 1000 yards. Plus, for most people, the 6BR is just easier to shoot than a .308. Recoil is less than half of the .308 cartridge. Both the .308 and 6BR chamberings offer good barrel life, but the 6BR uses 15-18 grains less powder, saving you money. Here’s how the 6BR stacks up vs. a number of popular calibers:
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December 23rd, 2012
Wilson Combat now offers an Adjustable Lo-Profile AR Gas Block for direct gas impingement AR-type rifles. Wilson Combat’s new adjustable gas block replaces a standard AR gas block and allows you to tune your AR’s gas system for smoother cycling and enhanced reliability. Wilson Combat explains: “Adjusting your rifle’s gas port will lower or increase your bolt’s cyclic rate. This tailors your rifle’s performance to your unique needs.”
A simple adjustment of the hex screw at the front of the block modulates the gas volume allowing you to tune your rifle’s function to your favorite loads. This is very handy when shooting non-standard AR calibers, unusual hand-loads, or suppressed rifles. Adjustable Gas Block systems are sold as complete kits starting at $74.95. Wilson Combat offers two diameters (.750″, .937″) and three lengths (Carbine Length, Mid-Length, & Rifle Length), so you can select the right dimensions for your rifle configuration and barrel diameter. The blocks are Chromoly steel with a Melonited finish.
Package Includes:
- Adjustable Gas Block (Melonite Finish)
- Adjustment Set Screw (Installed)
- Straight Gas Tube (Installed, Gas Tube Pin Installed)
- 12″-Long Allen Wrench to Adjust Inside Handguard
- $74.95 – $79.95
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December 15th, 2011
An Italian company, CompBullet, has produced a radical new line of CNC-machined projectiles with a cavity in the bullet base connected to ports (holes) placed radially around the bullet’s circumference. Currently CompBullet offers six bullet types: 9mm (100 gr), .40 cal (155 gr), .44 Cal (200 gr), .45 Cal (200 gr), and .30 Caliber Rifle (125 gr). CompBullet’s pistol projectiles have one row of radial ports, while the longer rifle bullets have two rows, resembling the porting on a muzzle brake.
Italy’s CompBullet makes many claims about its new, patented ported bullets. Supposedly the ported, cavity-base bullets go faster than conventional bullets, yet generate less recoil. CompBullet also claims that its radical projectiles produce less smoke and reduced flash on exiting the muzzle. We are skeptical of many of CompBullet’s claims. We also have some concerns about bullet integrity and potential safety issues — at least when used in high-velocity applications.
Velocity
Compbullet claims that gases exiting the radial ports “lubricate” the bullet as it travels down the bore, yielding enhanced velocity. However, if any gas is actually able to exit the holes while the bullet is in the rifling (it’s not clear that in-barrel venting really occurs), then this will simply serve to REDUCE the gas pressure pushing on the base of the bullet. If anything, the bullet should go slower than a conventional projectile, not faster.
Jet Effect
CompBullet projectiles have a cylindrical cavity in the base. CompBullet claims that hot gases will shoot out the bottom of the bullet (like a rocket) and this increases velocity. But this runs contrary to the bullet-maker’s claim that the hot combustion gas moves forward and out the vents. But what, you might ask, if there are powder kernels that have migrated into the cavity and ignite inside the bullet? That might indeed cause gas to move both forward and rearward. However, the force of any rearward gas jet would be minimal compared to the main pressure flow pushing from behind, at least while the bullet is in the barrel.
Reader’s Comment: Hope the holes are small enough so the powder doesn’t fall out if the round is tipped over or something. It’s a good idea for custom salt and pepper shakers though!” –Josh
Recoil Reduction
Muzzle brakes reduce felt recoil and muzzle lift, on both pistols and rifles. However, they are attached to the gun. We’re not sure how gas blowing out the sides of a bullet is going to have any effect on recoil, because that action occurs after the bullet has left the muzzle. It IS possible that some in-barrel venting from the bullet’s ports may occur (if the ports aren’t blocked by the rifling), but that, as explained above, will only serve to reduce pressure pushing on the base of the bullet and hence reduce velocity. To the extent CompBullet projectiles deliver less felt recoil (if they do), it’s probably because they have lower velocity. If CompBullet projectiles actually fly faster (than do conventional bullets), that would be easy to demonstrate with chronograph tests. However, CompBullet provides NO CHRONOGRAPH DATA on its website. Without such data, we remain unconvinced.
Safety Issues
With a CompBullet projectile, there is the potential for powder to shift from the cartridge case into the bullet’s central cavity, prior to ignition. If this occurs, and the kernels inside the bullet do not fire off prior to the bullet leaving the barrel, there is the possibility of an explosive fragmentation of the bullet once it leaves the muzzle. We don’t know if this could actually happen, but there’s a word for a small, metal container filled with gunpowder — a grenade.
Bullet Integrity
A conventional jacketed bullet can fly apart when the combination of heat, friction, and spinning force stresses the bullet’s construction. With the CompBullet projectile, you have a bullet that is heated from the inside out, with numerous weakening holes drilled in the structure.
Accuracy
We discussed the effect of radial ports on a bullet with Bryan Litz, chief Ballistician for Berger Bullets. He said: “this ported bullet design is interesting, but I can’t see how it would have any usefulness for precision shooting. If flaming gas really jets out the ports, and the outflow of every port is not perfectly uniform, then this will quickly cause a reduction of bullet stability, which won’t help accuracy at all.” Bryan also wondered if drag from the gas out-flowing from the ports might slow down bullet spin-rate. With less rpm, spin-stabilization would be reduced. “Unstable bullets are not accurate”, Bryan added.
Flash Signature
There does appear to be some evidence of a smaller smoke “cloud” on bullet exit and a reduced flash signature, if the photos on the CompBullet website can be believed. We would like to see an actual comparison between conventional ammo and CompBullet ammo, using identical powder charges. CompBullet’s photos do not provide a comparison with ammo loaded with non-ported bullets. We cannot confirm that flash is reduced unless we can see photos of both ported and non-ported bullets, shot with the same powder loads, in the same lighting conditions. See sequence below with 9x21mm pistols:
The inventor of the CompBullet ported projectile is Alain Della Savia, a IPSC Grand Master and 6-time Italian National Revolver Champion. He was inspired by the recoil reduction offered by ported handguns. He hoped to develop a new kind of ammo that had reduced recoil, while still satisfying the IPSC “power factor” requirements. His solution was to build ports in the bullets themselves, using CNC-machining methods: “After a year of experiences, [Alain] found the right balance between materials and internal compensation system inside the bullet.”
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April 16th, 2009
The HuntingNut.com website offers Point Blank Ballistics and Reloading software free of charge. That’s right, the program is absolutely free, forever — not just for a trial period. We use Point Blank all the time, not just to calculate come-ups and windage for our rifles, but also to compare ballistics among various chamberings, or to compare different bullets. With Point Blank it is easy to just change your bullet BC value and instantly see the effect on windage and drop. Point Blank will even calculate muzzle energy and recoil force. Point Blank will also hold all your reloading info in a built-in database. You enter the caliber (chambering), bullet, powder, velocity, and other important variables. Then you can quickly access hundreds of different load combinations.
CLICK HERE TO download PointBlank Reloading & Ballistics Software v2.0 ZIP Archive.
(Note: this 1.13mb file is for Windows computers; you need WinZip or other program to unzip the file archive.)
You can even use Point Blank to plot your shots on a test target. This way you can easily compare the accuracy of different “recipes” during load development. You can record up to 10 shots per target.
Calculate Recoil, Muzzle Energy, Knock-Out Power
Point Blank has many other useful functions. Click on the “Misc Functions” tab, and you’ll find the program will calculate recoil and muzzle energy. If you clock bullet speed at both the muzzle and a 100-yard target, the program will also calculate actual bullet Balllistic Coefficient. For hunters, the program calculates Taylor Knock-Out values, and the program even provides handy English/Metric unit conversions.
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August 3rd, 2008
It’s great that Reloder 17 can allow shooters to boost velocities by 150 fps or more (in suitable cartridges). Pushing a bullet faster can flatten its trajectory and reduce the amount of wind drift (at a given distance). However, in our quest to shoot bullets ever faster, we must remember that higher speeds come with a price. Higher velocities can increase fouling, may accelerate throat wear, and without question, higher velocities increase recoil.
How can you determine how much added recoil you’ll get when you speed up your bullets? The FREE Point Blank software program has a feature that calculates recoil. All you have to do is type in bullet weight, muzzle velocity, powder charge, and gun weight. Then the program automatically calculates recoil energy in ft/lbs and recoil velocity in fps. To use this feature, after launching Point Blank, click the “Misc Functions” tab, then select “Calculate Recoil”.
Point Blank Software Calculates Ballistics and Much More…
Point Blank Software is very versatile. It offers a full-featured ballistics calculator that figures bullet drop and wind drift. A built-in database will hold all your load data. In addition, you can keep track of your firearms with the firearms inventory database. A target screen lets you plot shots and calculate group size. Among the miscellaneous functions, in addition to calculating recoil, Point Blank can calculate muzzle energy, “knockout factor”, and bullet sectional density. Point Blank even offers a handy English/metric measurement converter.
What does all this calculating power cost? Zero. Zip. Nada. Point Blank Software is FREE. Just click on the link below to go to the download page. Point Blank will run on any PC using Windows 95 or newer operating system.
DOWNLOAD FREE Point Blank Reloading & Ballistics Software
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