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Muzzle brake

From Wikipedia, the free encyclopedia

The muzzle brake of the 105mm main gun on an AMX 10 RC armoured fighting vehicle
The muzzle brake of an M198 155mm howitzer venting propellant gases sideways as the howitzer is fired

A muzzle brake or recoil compensator is a device connected to, or a feature integral (ported barrel) to the construction of, the muzzle or barrel of a firearm or cannon that is intended to redirect a portion of propellant gases to counter recoil and unwanted muzzle rise.[1] Barrels with an integral muzzle brake are often said to be ported.

The concept of a muzzle brake was first introduced for artillery. It was a common feature on many anti-tank guns, especially those mounted on tanks, in order to reduce the area needed to take up the strokes of recoil and kickback. They have been used in various forms for rifles and pistols to help control recoil and the rising of the barrel that normally occurs after firing. They are used on pistols for practical pistol competitions, and are usually called compensators in this context.[2]

History

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The concept of a muzzle brake had been experimented with for many years prior to its successful implementation: in 1922, a US Army Ordnance Department official stated in US Congress that "the muzzle brake was used in another form 20 years ago, and even longer ago than that, but it has never been successfully applied".[3]

Antoine Treuille de Beaulieu invented a prototype based on the idea in 1842 and had it tested in 1862, but he himself called the idea "too new".[4] A US patent was issued for a "recoil obviator" in 1871 (there is no indication it was ever tested),[5] while an experimental British anti-tank rifle in 1918 featured a muzzle brake, but was not adopted.[6]

In the later 1920s, there was some limited progress: around 1926, Cutts compensator became an option in the Thompson SMG (R. M. Cutts' earliest patent is from 1925[7]), in 1927 Škoda patented[8] a family of muzzle brake designs, one of which was used on 8 cm kanon vz. 28, and in 1928, Schneider et Cie (which was allied with Škoda at the time) updated their 220 mm TR mle 1915/1916 with a muzzle brake[9] patented by Eugène Schneider II way back in 1912.[10]

Pepper-pot muzzle brake ("Jentzen-brake") on a Bofors “15 cm haub M/19” howitzer.

In mid-1930s, Bofors designed several successful artillery pieces (e. g. 37-mm and 105-mm guns) with new perforated muzzle brakes, so-called pepper-pot muzzle brakes, a design invented by then Swedish artillery captain Harald Jentzen [se] and therefore known in Sweden as a "Jentzen-brake" (Swedish: Jentzen-broms).[11] The Soviet Union started modernizing old artillery systems with new barrels, such as the 107 mm gun M1910/30, 152 mm gun M1910/30 etc., predominantly featuring cylindrical muzzle brakes with long slits on each side. Several European countries started designing and producing anti-tank rifles featuring muzzle brakes. In late 1930s and especially during World War II the device became common on both firearms and artillery pieces.

Overall, the development of the muzzle brake was a gradual process that involved experimentation and refinement over many years.

Rationale in firearms

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Illustration of forces in muzzle rise. Projectile and propellant gases act on barrel along barrel center line A. The shooter resists the forces by contact with the gun at grips and stock B. The height difference between barrel centerline and average point of contact is height C. The forces A and B operating over moment arm/height C create torque or moment D, which rotates the firearm's muzzle up as illustrated at E

The interchangeable terms muzzle rise, muzzle flip, or muzzle climb refer to the tendency of a handheld firearm's front end (the muzzle end of the barrel) to rise after firing. Firearms with less height from the grip line to the barrel centerline tend to experience less muzzle rise.[12]

The muzzle rises primarily because, for most firearms, the centerline of the barrel is above the center of contact between the shooter and the firearm's grip and stock. The reactive forces from the fired bullet and propellant gases exiting the muzzle act directly down the centerline of the barrel.[12] If that line of force is above the center of the contact points, this creates a moment or torque (rotational force) that causes the firearm to rotate and the muzzle to rise.

Design and construction

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Muzzle brake on M47 Patton tank

Muzzle brakes are simple in concept, such as the one employed on the 90 mm M3 gun used on the M47 Patton tank. This consists of a small length of tubing (mounted at right angles) at the end of the barrel. Brakes most often utilize slots, vents, holes, baffles, and similar devices. The strategy of a muzzle brake is to redirect and control the burst of combustion gases following the departure of a projectile.

All muzzle brake designs share a basic principle: to partially divert combustion gases from the muzzle end of the bore at a (generally) perpendicular angle to the long axis of the barrel. The momentum of the diverted gases thus does not add to the recoil. The angle toward which the gases are directed will fundamentally affect how the brake behaves. If gases are directed upward, they will exert a downward force and counteract muzzle rise. Any device that is attached to the end of the muzzle will also add mass, increasing its inertia and moving its center of mass forward; the former will reduce recoil and the latter will reduce muzzle rise.

The AKM rifle's slant-cut compensator

Construction of a muzzle brake or compensator can be as simple as a diagonal cut at the muzzle end of the barrel to direct some of the escaping gas upward. On the AKM assault rifle, the brake also angles slightly to the right to counteract the sideways movement of the rifle under recoil.

Another simple method is porting, where holes or slots are machined into the barrel near the muzzle to allow the gas to escape.[13]

More advanced designs use baffles and expansion chambers to slow escaping gases. This is the basic principle behind a linear compensator. Ports are often added to the expansion chambers, producing the long, multi-chambered recoil compensators often seen on IPSC raceguns.[2]

Venting direction

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Springfield Armory, Inc., custom XD-40 V-10 with ported barrel and slide
DoubleTap .45ACP derringer with ported barrels

Most linear compensators redirect the gases forward.[14][15][16] Since that is where the bullet is going, they typically work by allowing the gases to expand into the compensator, which surrounds the muzzle but only has holes facing forward; like any device which allows the gases to expand before leaving the firearm, they are effectively a type of muzzle shroud. They reduce muzzle rise similarly to the mechanism by which a sideways brake does: since all the gas is escaping in the same direction, any muzzle rise would need to alter the velocity of the gas, which costs kinetic energy. When the brake redirects the gases directly backward, instead, the effect is similar to the reverse thrust system on an aircraft jet engine: any blast energy coming back at the shooter is pushing "against" the recoil, effectively reducing the actual amount of recoil on the shooter. Of course, this also means the gases are directed toward the shooter.

When the gases are primarily directed upward, the braking is referred to as porting.[citation needed] Porting typically involves precision-drilled ports or holes in the forward top part of the barrel and slide on pistols. These holes divert a portion of the gases expelled prior to the departure of the projectile in a direction that reduces the tendency of the firearm to rise.[17] The concept is an application of Newton's third law; the exhaust directed upward causes a reciprocal force downward. This is why firearms are never ported on the bottom of the barrel, as that would exacerbate muzzle rise, rather than mitigate it. Porting has the undesired consequences of shortening the effective barrel length and reducing muzzle velocity, while a muzzle brake is an extension added to the barrel and does not reduce muzzle velocity. Porting has the advantage for faster follow-up shots, especially for 3-round burst operation.[citation needed]

Effectiveness

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Although there are numerous ways to measure the energy of a recoil impulse, in general, a 10% to 50% reduction can be measured.[18] Some muzzle brake manufacturers claim greater recoil reduction percentages. Muzzle brakes need sufficient propellant gas volume and high gas pressure at the muzzle of the firearm to achieve well-measured recoil reduction percentages. This means cartridges with a small bore area to case volume ratio (overbore cartridges) combined with a high operating pressure benefit more from recoil reduction with muzzle brakes than smaller standard cartridges.

Besides reducing felt recoil, one of the primary advantages of a muzzle brake is the reduction of muzzle rise. This lets a shooter realign a weapon's sights more quickly. This is relevant for fully automatic weapons. Muzzle rise can theoretically be eliminated by an efficient design. Because the rifle moves rearward less, the shooter has little to compensate for. Muzzle brakes benefit rapid-fire, fully automatic fire, and large-bore hunting rifles. They are also common on small-bore vermin rifles, where reducing the muzzle rise lets the shooter see the bullet impact through a telescopic sight. A reduction in recoil also reduces the chance of undesired (painful) contacts between the shooter's head and the ocular of a telescopic sight or other aiming components that must be positioned near the shooter's eye (often referred to as "scope eye"). Another advantage of a muzzle brake is a reduction of recoil fatigue during extended practice sessions, enabling the shooter to consecutively fire more rounds accurately. Further, flinch (involuntary pre-trigger-release anxiety behavior resulting in inaccurate aiming and shooting) caused by excessive recoil may be reduced or eliminated.

Disadvantages

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Muzzle flash without muzzle brake
Redirected muzzle flash with muzzle brake

The shooter, gun crew, or close bystanders may perceive an increase in sound pressure level as well as an increase in muzzle blast and lead exposure. This occurs because the sound, flash, pressure waves, and lead loaded smoke plume normally projected away from the shooter are now partially redirected outward to the side or sometimes at partially backward angles toward the shooter or gun crew. Standard eye and ear protection, important for all shooters, may not be adequate to avoid hearing damage with the muzzle blast partially vectored back toward the gun crew or spotters by arrowhead shaped reactive muzzle brakes found on sniper teams firing anti-materiel rifles like the Barrett M82.[19]

Measurements indicate that on a rifle, a muzzle brake adds 5 to 10 dB to the normal noise level perceived by the shooter, increasing total noise levels up to 160 dB(A) ± 3 dB.[20] Painful discomfort occurs at approximately 120 to 125 dB(A),[21] with some references claiming 133 dB(A) for the threshold of pain.[22]

Brakes and compensators also add length, diameter, and mass to the muzzle end of a firearm, where it most influences its handling and may interfere with accuracy as muzzle rise will occur when the brake is removed and shooting without the brake can throw off the strike of the round.[19]

Another problem can occur when saboted ammunition is used as the sabot tends to break up inside the brake. The problem is particularly pronounced when armour-piercing fin-stabilized discarding-sabot (APFSDS), a type of long-rod penetrator (LRP) (or kinetic energy penetrator), are used.[23] Since these APFSDS rounds are the most common armour-piercing ammunition currently, virtually no modern main battle tank guns have muzzle brakes.

A serious tactical disadvantage of muzzle brakes on both small arms and artillery is that, depending on their designs, they may cause escaping gases to throw up dust and debris clouds that impair visibility and reveal one's position, not to mention posing a hazard to individuals without eye protection.[24] Troops often wet the ground in front of antitank guns in defensive emplacements to prevent this, and snipers are specially trained in techniques for suppressing or concealing the magnified effects of lateral muzzle blast when firing rifles with such brakes.[25] Linear compensators and suppressors do not have the disadvantages of a redirected muzzle blast; they actually reduce the blast by venting high pressure gas forward at reduced velocity.

The redirection of larger amounts of escaping high-pressure gas can cause discomfort caused by blast-induced sinus cavity concussion. Such discomfort can especially become a problem for anti-materiel rifle shooters due to the larger than normal cartridges with accompanying large case capacities and propellant volumes these rifles use and can be a reason for promoting accelerated shooter fatigue and flinching. Furthermore, the redirected blast may direct pressure waves toward the eye, potentially leading to retinal detachment when repeated shooting is performed with anti-materiel and large caliber weapons.[26]

Examples

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Ported chamber

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A barrel chamber with pressure relief ports that allows gas to leak around the cartridge during extraction. Basically the opposite of a fluted chamber as it is intended for the cartridge to stick to the chamber wall making a slight delay of extraction. This requires a welded-on sleeve with an annular groove to contain the pressure.[27]

US legislation and regulation

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The State of California outlaws flash suppressors on semiautomatic rifles with detachable magazines, but allows muzzle brakes to be used instead.[28]

The Bureau of Alcohol, Tobacco, Firearms, and Explosives (ATF) made a regulatory determination in 2013 that the muzzle device of the SIG Sauer MPX Carbine, adapted from the baffle core of the integrally suppressed version's suppressor and claimed by SIG to be a muzzle brake, constituted a silencer and rendered the MPX-C a Title II NFA weapon. SIG Sauer, the rifle's maker, sued the ATF in 2014 to have the designation overturned.[29] In September 2015, Federal Judge Paul Barbadora upheld the ATF's ruling; despite SIG successfully establishing that the muzzle device did not suppress the weapon's sound, the ATF successfully established that it was intended to suppress the sound, which was legally sufficient.[30]

See also

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References

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  1. ^ Muzzle brake in the NRA Firearms Glossary
  2. ^ a b STI article Archived 29 September 2007 at the Wayback Machine on Limcat Undergas Bypass Turbo System recoil compensator
  3. ^ Diplomatic and Consular Appropriation Bill, 1922: Hearing[s] Before Subcommittee of House Committee on Appropriations ... in Charge of the Diplomatic and Consular Appropriation Bill for 1922. Sixty-sixth Congress, Third Session. U.S. Government Printing Office. 1921. p. 152. Retrieved 15 May 2023.
  4. ^ Journal of the United States Artillery. United States Coast Artillery Association. 1945. p. 32. Retrieved 18 May 2023.
  5. ^ U.S. patent 118933A
  6. ^ "Historical Firearms - Godsal 1918 Anti-Tank Rifle While the Imperial".
  7. ^ "Google Patents".
  8. ^ FR 657091A 
  9. ^ "Landships II".
  10. ^ GB 191218491A 
  11. ^ Fransson, Stig A. (1996). Bofors 350 år (in Swedish). Stockholm: Probus. p. 110. ISBN 918718446X.
  12. ^ a b Sweeney, Patrick (2012). The Gun Digest Book of the AR-15. Iola, Wisconsin: Gun Digest Books. p. 269. ISBN 978-1-4402-2868-1.[permanent dead link]
  13. ^ Mag-Na-Port handgun porting information
  14. ^ "Brownells - Firearms, Reloading Supplies, Gunsmithing Tools, Gun Parts and Accessories". www.brownells.com. Archived from the original on 30 September 2007. Retrieved 30 September 2007.
  15. ^ "KIES Blast Master Linear Compensator". Archived from the original on 19 December 2013. Retrieved 19 December 2013. KIES linear compensator
  16. ^ https://www.youtube.com/watch?v=PY4-fmql19w HERA ARMS linear compensator
  17. ^ Hearst Magazines (August 1932). "Jump Is Taken Out Of Guns By Cylinders On MuzzlePopular Mechanics". Popular Mechanics. Hearst Magazines. p. 248.
  18. ^ "What Does a Compensator Do On a Pistol?". RE Factor Tactical. Scott Witner.
  19. ^ a b Wieland, Terry (15 October 2009). Dangerous-Game Rifles. Down East Books. p. 550. ISBN 978-0-89272-902-9.
  20. ^ Summary of a Finnish government report (1992) on silencers, muzzle brakes and noise levels[permanent dead link]
  21. ^ (in German and English) Schalldämpfer = Gehörschützer für Jäger, data collected on noise levels Archived 28 March 2009 at the Wayback Machine
  22. ^ "More About: Shooting/Hunting Hearing Protection". www.earplugstore.com.
  23. ^ Tilstra, Russell C. (2011). Small Arms for Urban Combat: A Review of Modern Handguns, Submachine Guns, Personal Defense Weapons, Carbines, Assault Rifles, Sniper Rifles, Anti-Materiel Rifles, Machine Guns, Combat Shotguns, Grenade Launchers and Other Weapons Systems. McFarland. p. 118. ISBN 978-0-7864-8875-9.
  24. ^ Carlucci, Donald E.; Jacobson, Sidney S. (11 December 2007). Ballistics: Theory and Design of Guns and Ammunition. CRC Press. p. 158. ISBN 978-1-4200-6619-7.
  25. ^ Press, Paladin; Navy, U S (1992). Seal Sniper Training Program. Paladin Press. p. 66. ISBN 978-0-87364-683-3.
  26. ^ Boatman, Robert H. (2004). Living with the Big .50: The Shooter's Guide to the World's Most Powerful Rifle. Paladin Press. p. 86. ISBN 978-1-58160-440-5.
  27. ^ "Firearm barrel assembly with ported chamber".
  28. ^ "Department of Justice Regulations for Assault Weapons and Large Capacity Magazines" (PDF). California Department of Justice. 1999. Archived (PDF) from the original on 13 May 2013. "flash suppressor" means any device that reduces or conceals the visible light or flash created when a firearm is fired. This definition includes flash hiders, but does not include compensators and muzzle brakes (devices attached to or integral with the muzzle barrel to utilize propelling gasses for counter-recoil).
  29. ^ Dinan, Elizabeth (10 April 2014). "SIG Sauer sues ATF for calling its 'muzzle brake' a gun silencer". Seacoastonline.com. Retrieved 29 December 2014.
  30. ^ Judge favors ATF in Sig lawsuit: It’s a silencer Archived 19 September 2018 at the Wayback Machine, Guns.com, 25 September 2015
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