Muzzle flash

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USS Iowa (BB-61) fires a full broadside during a target exercise near Vieques Island, Puerto Rico, 1 July 1984, showing the muzzle blast from its large guns.

Muzzle blast is the term used to describe the release of hot, high pressure gases from the muzzle of a firearm when it is discharged. Muzzle flash is the term used to describe the visible light of the muzzle blast. The blast and flash are caused by the combustion products of the gunpowder, and any remaining unburned powder, mixing with the ambient air. The size and shape of the muzzle flash is dependent on the type of ammunition being used and the individual characteristics of firearm and any devices attached to the muzzle (such as a muzzle brake or flash suppressor).

[edit] Muzzle blast

The muzzle blast is often broken down into two components, an auditory component^[1] and a non-auditory component^[2]. The auditory component, the sound of the muzzle blast, is important because it can cause hearing loss or give away the gun's position, while the non-auditory component, the overpressure wave, can cause damage to items near the blast.

[edit] Sound

The sound of a gunshot may have two sources; the muzzle blast itself, and any sound produced by a transonic or supersonic projectile. can be loud enough to produce hearing loss. Suppressors help to reduce the the level of sound of a firearm, by providing a large area for the propellant gas to expand and cool before release.^[3]

[edit] Overpressure wave

The overpressure wave from the muzzle blast of a firearm can contain a significant amount of energy. Residual pressures at the muzzle can be a significant fraction of the peak chamber pressure, especially when slow burning powders or short barrels are used^[4]. This energy can also be harnessed by a muzzle brake to reduce the recoil of the firearm, or by a muzzle booster to provide energy to operate the action.^[5]

[edit] Problems caused by muzzle blast

Muzzle blasts can reach levels of 140 decibels, which can cause permanent hearing loss even with brief and infrequent exposure.^[6] With big guns such as artillery, that danger can extend outwards a significant distance from the muzzle.^[7].

The force of the muzzle blast can cause damage to items near the muzzle, and with artillery, the energy is sufficiently large to cause severe damage to surrounding structures and vehicles.^[8]

[edit] Muzzle flash

Muzzle flash of a revolver, note also the minor flash at the gap between cylinder and barrel

The muzzle flash refers to the light emitted by the muzzle blast, both visible light and infrared. Both heat and pressure can result in light being emitted.

[edit] Muzzle flash characteristics

Muzzle flash can be broken down into five distinct components.^[9]

• Muzzle glow is a reddish glow that is visible before the bullet leaves the barrel. Muzzle glow is created by superheated gases that have leaked past the projectile and have exited the barrel.
• The primary flash is caused by propellant gases exiting the firearm behind the bullet. Although amongst the brightest of the flashes, the heat of the primary flash dissipates quickly and thus is no longer visible.
• The intermediate flash is caused by shock waves created by the high speeds of the escaping gases and projectile, and appears as a reddish disc shape in front of the muzzle.
• The secondary flash appears farthest from the muzzle as a large white or yellow flame. Secondary flash is caused by the mixture of fuel-rich gases and oxygen in the atmosphere surrounding the muzzle. ^[10]
• Following the dissipation of the muzzle flash, partially unburnt powder or other heated materials can be ejected from the muzzle and appear as sparks.

[edit] Problems caused by muzzle flash

Muzzle flash is an inherent problem in most firearms. Due to its brightness, muzzle flash can temporarily blind the shooter, or give away the shooter's location, especially at night. Flash suppressors, commonly thought to be used to reduce visibility to the enemy, are in fact designed to reduce the muzzle flash from the shooter to preserve their night vision. Sound suppressors, in the process of reducing the sound of the muzzle blast, also reduce or eliminate the flash.^[11]

[edit] Detection of muzzle blast and flash

Systems to detect muzzle blast with microphones and triangulate the location where the shots were fired are commercially available, and have been installed in many high crime areas of large cities. These gunshot location systems provide a fairly precise location of the source of a shot fired outdoors—99% to within 65 feet (10m) or better—and can provide it to police within seconds of the shot being fired.^[12]

Muzzle flashes create distinct signatures that can be located using infrared imaging technology. ^[13] In fact, technology is being developed to detect enemy muzzle flashes before the projectile reaches its target. ^[14]

[edit] See also

Wikimedia Commons has media related to:

Muzzle flash

• Suppressor
• Muzzle booster

[edit] References

1. ^ Muzzle Blast Sound Intensity, Firearm Sound Pressure Level
2. ^ Blast Overpressure Studies. Nonauditory Damage Risk Assessment for Simulated Muzzle Blast from a l2Omm Ml2l Mortar System. (abstract)
3. ^ Definition for "sound suppressor". MidwayUSA.
4. ^ See internal ballistics
5. ^ Definition for "compensator". MidwayUSA.
6. ^ Hearing protection FAQ
7. ^ Prediction of Standoff Distances to Prevent Loss of Hearing from Muzzle Blast
8. ^ Muzzle Blast Damage to Combat Vehicles (abstract)
9. ^ Tony DiGiulian, Muzzle flash, 14 August 2006
10. ^ G. Klingenberg, Gun Muzzle Blast and Flash, 21 July 1988
11. ^ Definition for "flash suppressor". MidwayUSA.
12. ^ Random Gunfire Problems and Gunshot Detection Systems. U.S. Department of Justice (December, 199).
13. ^ Infrared sniper detection enhancement
14. ^ http://www.anti-terrorism.com/downloads/VIPER.pdf

[edit] External links

• High speed photographs of shotgun muzzle blasts