- Transitional ballistics
Transitional ballistics, also known as intermediate ballistics, is the study of a projectile's behavior from the time it leaves the muzzle until the pressure behind the projectile is equalized, so it lies between
internal ballisticsand external ballistics. This is also referred to in some texts as intermediate ballistics.
The transitional period
Transitional ballistics is a complex field that involves a number of
variables that are not fully understood; therefore, it is not an exact science. When the bullet reaches the muzzle of the barrel, the escaping gases are still, in many cases, at hundreds of atmospheres of pressure. Once the bullet exits the barrel, breaking the seal, the gases are free to move past the bullet and expand in all directions. This expansion is what gives gunfire its explosive sound, and is often accompanied by a bright flash as the gases combine with the oxygenin the air and finish combusting.
The propellant gases continue to exert force on the bullet and firearm for a short while after the bullet leaves the barrel. One of the essential elements of
accurizinga firearm is to make sure that this force does not disrupt the bullet from its path. The worst case is a muzzle that is cut at a non-square angle, so that one side of the bullet leaves the barrel early; this will cause the gas to escape in an asymmetric pattern, and will push the bullet away from that side, causing shots to form a "string", where the shots cluster along a line rather than forming a normal Gaussianpattern.
Most firearms have muzzle velocities in excess of the ambient
speed of sound, and even in subsoniccartridges the escaping gases will exceed the speed of sound, forming a shock wave. This wave will quickly slow as the expanding gas cools, dropping the speed of sound within the expanding gas, but at close range this shockwave can be very damaging. The muzzle blast from a high powered cartridge can literally shred soft objects in its vicinity, as careless benchrest pistol shooters occasionally find out when the muzzle slips back onto their sandbag and the muzzle blast sends sand flying.
Altering transitional ballistics
In addition to the process of "crowning" a barrel to ensure a clean and accurate exit of the bullet, there are a number of devices that attempt to harness the muzzle blast for various reasons.
uppressing the blast
Flash suppressors and sound suppressors are the most obvious devices that operate in the transitional ballistics realm. These both alter the flow of the escaping gas to reduce the effects of the muzzle blast. Flash suppressors introduce turbulence into the mixing of fuel-laden hot gases escaping from the muzzle and the surrounding oxygen-rich air, reducing combustion efficiency and thus reducing the size and brightness of the flash. Sound suppressors slow the expansion of gases, allowing it to cool and reducing the rate at which it escapes to prevent a shockwave from forming.
Since the propellant gas is part of the mass that causes a firearm to recoil, redirecting the flow of escaping gas can alter the recoil of the firearm. In handgun cartridges, where propellant mass is typically very low compared to the bullet mass, this generally takes the form of a
recoil compensator; with rifle cartridges, where the propellant is a significant mass compared to the bullet, it takes the form of a muzzle brake. The distinction between compensators and brakes is blurred; often the two functions are combined and many people use the terms interchangeably. To further complicate issues, many flash suppressors are designed to provide some recoil compensation.
A "recoil compensator" is designed to direct the gases upwards at roughly a right angle to the bore, in essence making it a small
rocketthat pushes the muzzle downwards, and counters the "flip", or rise of the muzzle caused by the high bore line of most firearms. These are often found on "raceguns" used for action shootingand in heavy, rifle caliber handguns used in metallic silhouetteshooting. In the former case, the compensator serves to keep the sights down on target for a quick followup shot, while in the latter case they keep the heavy recoil directed backwards, preventing the pistol from trying to twist out of the shooter's grip.
A "muzzle brake" is designed to redirect the muzzle blast backwards, and therefore counter the recoil of the bullet. Muzzle brakes tend to be found on larger firearms, such as magnum rifles and
artillery. A well designed muzzle brake can significantly reduce recoil, turning a rifle that would otherwise be punishing to shoot into a far more tolerable experience. A good example may be seen on the M82 Barrett sniper rifle.
There are downsides to both recoil compensators muzzle brakes. One is that they direct more of the muzzle flash back towards the shooter—this is especially true of muzzle brakes. While eye and ear protection should always be used when shooting, this is even more essential with the muzzle blast directed more towards the shooter. Brakes and compensators are often quite bulky, adding length, diameter, and mass to the muzzle end of the firearm, where it will most effect its handling. While a simple slot milled in the barrel, such as those used in Magna-Porting, will provide some benefit, efficient redirection of the gas flow requires large ports and baffles to deflect as much gas as possible.
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