The enclosure of the silencer can also serve as a muzzle shroud to physically conceal any light emitted by the gases and residuals.When a gun is fired, a burst of light suddenly appears at the end of the barrel. This is done by trapping and delaying the expansion of the propellant gases with containing multiple sound baffles, which slows the gases and dissipating their energy over a larger surface area before releasing them at a cooler temperature. Silencers, while designed to mitigate the loud sound of gunfire, can also suppress muzzle flash. Ammonium chloride and ammonium nitrate salts have also been tried with success. The side effects of the alkali salts are a reduction in power, an increase in smoke, and fouling and corrosion of the firearm and nearby equipment (a significant concern with aircraft guns). In both cases, the salts act as catalysts, and interfere with the hydrogen-oxygen combustion to reduce the muzzle flash. Addition of a few percent of alkali salts to the powder for flash suppression is common, typically salts of potassium such as potassium chloride, potassium sulfate, potassium carbonate and potassium bicarbonate. In World War I, bags of sodium chloride (table salt) were placed in front of the propellant charges of artillery to suppress the flash. However, since the primary cause of the secondary flash is combustion of hydrogen and carbon monoxide, chemical approaches are also used. įlash hiders attempt to suppress the flash mechanically, by interfering with the blast wave using either a cone or a series of slots at the muzzle of the firearm. Ingestion of the muzzle flash from aircraft-mounted guns has also been implicated in compressor stall and flameout, causing loss of aircraft. Due to its brightness, muzzle flash can temporarily blind the shooter, or give away the shooter's location, especially at night. Muzzle flash, particularly the longer-duration secondary flash, is an inherent problem in most firearms. Technology is being developed to detect enemy muzzle flashes before the projectile reaches its target. Muzzle flashes create distinct signatures that can be located using infrared imaging technology. dislodged lead, copper and/or carbon foulings) can be further ejected from the muzzle and appear as airborne residual sparks.
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