Chamber The
chamber is the cavity at the back end of a
breech-loading gun's barrel where the
cartridge is inserted in position ready to be fired. In most firearms (
rifles,
shotguns,
machine guns and
pistols), the chamber is an integral part of the barrel, often made by simply
reaming the rear bore of a barrel blank, with a single chamber within a single barrel. In
revolvers, the chamber is a component of the gun's
cylinder and completely separate from the barrel, with a single cylinder having multiple chambers that are rotated in turns into alignment with the barrel in anticipation of being fired. Structurally, the chamber consists of the
body,
shoulder and
neck, the contour of which closely correspond to the casing shape of the cartridge it is designed to hold. The rear opening of the chamber is the
breech of the whole barrel, which is sealed tight from behind by the
bolt, making the front direction the
path of least resistance during firing. When the cartridge's
primer is struck by the
firing pin, the
propellant is ignited and
deflagrates, generating high-pressure gas expansion within the cartridge case. However, the chamber (closed from behind by the bolt) restrains the cartridge case (or
shell for shotguns) from moving, allowing the
bullet (or
shot/
slug in shotguns) to separate cleanly from the casing and be propelled forward along the barrel to exit out of the front (muzzle) end as a flying
projectile. Chambering a gun is the process of loading a cartridge into the gun's chamber, either manually as in
single loading, or via operating the weapon's own
action as in
pump action,
lever action,
bolt action or
self-loading actions. In the case of an
air gun, a pellet (or slug) itself has no casing to be retained and will be entirely inserted into the chamber (often called "seating" or "loading" the pellet, rather than "chambering" it) before a mechanically pressurized gas is released behind the pellet and propels it forward, meaning that an air gun's chamber is functionally equivalent to the freebore portion of a firearm barrel. In the context of firearms design, manufacturing and modification, the word "chambering" has a different meaning, and refers to fitting a weapon's chamber specifically to fire a particular
caliber or model of cartridge.
Bore The
bore is the hollow internal
lumen of the barrel, and takes up a vast majority portion of the barrel length. It is the part of the barrel where the projectile (bullet, shot, or slug) is located prior to firing and where it gains
speed and
kinetic energy during the firing process. The projectile's status of
motion while travelling down the bore is referred to as its
internal ballistics. Most modern firearms (except
muskets, shotguns, most
tank guns, and some
artillery pieces) and air guns (except some
BB guns) have helical grooves called
riflings machined into the bore wall. When shooting, a rifled bore imparts spin to the projectile about its longitudinal axis, which
gyroscopically stabilizes the projectile's
flight attitude and
trajectory after its exit from the barrel (i.e. the
external ballistics). Any gun without riflings in the bore is called a
smoothbore gun. When a firearm cartridge is chambered, its casing occupies the chamber but its bullet actually protrudes beyond the chamber into the posterior end of the bore. Even in a rifled bore, this short rear section is without rifling, and allows the bullet an initial "run-up" to build up
momentum before encountering riflings during shooting. The most posterior part of this unrifled section is called a
freebore, and is usually cylindrical. The portion of the unrifled bore immediately front of the freebore, called the
leade, starts to
taper slightly and guides the bullet towards the area where the riflingless bore transitions into fully rifled bore. Together they form the throat region, where the riflings impactfully "bite" into the moving bullet during shooting. The throat is subjected to the greatest thermomechanical
stress and therefore suffers
wear the fastest. Throat erosion is often the main determining factor of a gun's barrel life.
Muzzle (seen from the muzzle) of a
Leopard 2A4 rifle, equipped with a birdcage-type
flash suppressor chokes modulated by an A2-style
flash suppressor The
muzzle is the front end of a barrel from which the projectile will exit. Precise
machining of the muzzle is crucial to accuracy, because it is the last point of contact between the barrel and the projectile. If inconsistent gaps exist between the muzzle and the projectile, escaping propellant gases may spread unevenly and deflect the projectile from its intended path (see
transitional ballistics). The muzzle can also be
threaded on the outside to allow the attachment of different accessory devices. In
rifled barrels, the contour of a muzzle is designed to keep the rifling safe from damage by intruding foreign objects, so the front ends of the rifling grooves are commonly protected behind a recessed
crown, which also serves to modulate the even expansion of the propellant gases. The crown itself is often recessed from the outside rim of the muzzle to avoid accidental damage from collision with the surrounding environment. In
smooth bore barrels firing multiple sub-projectiles (such as shotgun shot), the bore at the muzzle end might have a tapered constriction called
choke to shape the scatter pattern for better range and accuracy. Chokes are implemented as either interchangeable screw-in chokes for particular applications, or as fixed permanent chokes integral to the barrel. During firing, a bright flash of light known as a
muzzle flash is often seen at the muzzle. This flash is produced by both superheated propellant gases radiating energy during expansion (primary flash), and the incompletely combusted
propellant residues reacting vigorously with the fresh supply of ambient air upon escaping the barrel (secondary flash). The size of the flash depends on factors such as barrel length (shorter barrels have less time for complete combustion, hence more unburnt powder), the type (fast- vs. slow-burning) and amount of propellant (higher total amount means likely more unburnt residues) loaded in the cartridge.
Flash suppressors or
muzzle shrouds can be attached to the muzzle of the weapon to either diminish or conceal the flash. The rapid expansion of propellant gases at the muzzle during firing also produce a powerful
shockwave known as a
muzzle blast. The audible component of this blast, also known as a
muzzle report, is the loud "bang" sound of gunfire that can easily exceed 140
decibels and cause permanent
hearing loss to the shooter and bystanders. The non-audible component of the blast is an
infrasonic overpressure wave that can cause damage to nearby fragile objects. Accessory devices such as
muzzle brakes and
muzzle boosters can be used to redirect muzzle blast in order to counter the
recoil-induced
muzzle rise or to assist the
gas operation of the gun, and
suppressors (and even muzzle shrouds) can be used to reduce the blast
noise intensity felt by nearby personnel. == See also == •
Bore evacuator •
Bore snake •
Cap gun •
Caplock mechanism •
Fluting •
Glossary of firearms terms •
Minié ball •
Muzzleloader •
Polygonal rifling •
Slug barrel •
Smoothbore barrel, opposite of a
rifled barrel •
Tubes and primers for ammunition ==References==