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Door breaching is a process used by military, police, or emergency services to force open closed or locked doors. A wide range of methods are available depending on the door's opening direction (inward or outward), construction materials, etc., and one or more of these methods may be used in any given situation. In the United States, Residential area doors typically open inward while commercial building doors usually open outward. Some breaching methods require specialized equipment and can be categorized as one of the following: mechanical breaching, ballistic breaching, hydraulic breaching, explosive breaching, or thermal breaching.
More dynamic methods use significantly more force to break the lock or door. Tools like the Halligan bar, pry bar, Denver tool, Kelly tool, claw tool, or "the pig", can be used to lever a door open. Other tools, like or (like the enforcer), concentrate a large amount of kinetic force on the door to defeat the locking mechanism. and similar barriers can also be removed with . Doors can also be breached by cutting through the material of the door itself with a circular saw, though this is much slower. Although not strictly pertaining to door breaching, windows can also be breached to gain entry using a "break and rake" tool. This tool first "breaks" the window, then "rakes" aside pieces of broken glass as well as any window frame.
In practice, are usually used to destroy the latch and lock, or the hinges of the door. While in theory other can be used, are usually underpoweredSee Mythbusters Special 9 and are less effective than the shotgun and pose a far higher risk of ricochet and collateral injury. Short pump-action shotguns are commonly used as they are less bulky and easier to maneuver. The shotgun can be used as a primary weapon by the breacher or be dedicated solely for breaching. If the latter, the shotgun can be holstered or slung in a harness when not in use. There are also breaching shotgun systems which can be mounted to a rifle to avoid the issue of managing two weapons. Examples include the KAC Masterkey, Ciener Ultimate Over/Under, M26 MASS, Metal Storm MAUL, and Crye Six12.
Most shotgun ammunition can be used for breaching, though the risk of injury varies with type. Of the available shotgun ammunition, pose the highest risk, as they will retain significant energy to cause lethal wounds well after they have penetrated the door. Buckshot is far safer and birdshot even more so, as the multiple small projectiles disperse quickly after penetration, reducing the chances of causing a lethal wound (though more shots may be required if using birdshot). The safest option is a Frangible bullet such as the TESAR or Hatton round, which turns to dust upon penetrating the door and disperses completely upon exit, though, these rounds are also more expensive.
Breaching a door with the fewest shots possible is faster and reduces the chance of collateral damage. Attacking the latch and lock is easiest, as it requires fewer shots and is easiest to target, whereas attacking the hinges requires more shots, and the hinges may not be visible from the outside. According to US urban warfare doctrine, the breaching operation is performed with the muzzle in contact with the door, or as close as possible, and angled downwards at a 45-degree angle. This process provides the best chance of hitting the desired point, while minimizing risk to occupants of the room being breached. Muzzle attachments are available on some specialized breaching shotguns to facilitate this operation, by holding the barrel securely in place while providing a slight standoff to allow powder gases to escape. For a breach on the latch side, US doctrine calls for two shots to be fired at a point halfway between the lock or handle and the door frame to hit the lock's bolt, and then an attempt made to open the door. If the door cannot be opened, the process would need to be quickly repeated. A hinge-side breach calls for a total of three shots per hinge followed by an attempt to open the door.
Explosive breaching usually breaches doors via one of several mechanisms: pushing the door inward (e.g. water charge), cutting through the door's material (e.g. linear shaped charge), defeating the lock or hinge, or general blast effects (i.e. explosives in contact with door). The explosive breaching charges used can range from highly focused methods, such as Detonating cord, plastic explosives, or strip shaped charges that explosively cut through doors or latches, to large , containing of C-4, that can breach even reinforced concrete .
The explosive method of entry can be a safe and effective tool in the hands of qualified breachers. Whereas in the past, the rule of thumb was to use "P for plenty" if unsure whether adequate explosives were being applied, breachers today strive to use the least amount of explosive necessary to secure penetration into a target. Using the minimum amount of explosives necessary produces the least shockwave which reduces standoff distance for the team, potential injury to occupants, and damage to the general vicinity. This can be accomplished by calculating the net explosive weight (NEW) which is the equivalent weight of TNT that would be required to effect entry through various obstacles like reinforced concrete, plywood of various thicknesses, steel doors of various thicknesses, etc. The net explosive weights of commonly used explosives is recorded so breachers can refer to these values when calculating how much of a certain explosive would be needed to meet the necessary NEW.
The minimum standoff distance or minimum safe distance is the minimum distance from the explosive charge the breachers must be to avoid serious injury from overpressure. The minimum standoff distance is calculated based on the amount and type of explosive placed and is used to ensure that breachers do not experience greater than of overpressure. Hearing damage can occur at or greater, but this is negated by using hearing protection. Blast overpressure dissipates quickly in open air so it is ideal for creating standoff distance but it is not always available depending on tactical circumstances. Conversely, overpressure within structures is especially troublesome as sound reflects off walls and ceilings. Reduced minimum safe distance can be achieved by staying off axis from the explosive (including around a corner) or having a physical obstacle between the team and the explosive (like a wall or a blast blanket).
Minimum safe distance and effectiveness of explosives can be augmented by tamping. This entails laying materials over the explosive to help direct the blast toward the door or material that needs to be breached. Tamping can be done with , rubble, or even filled water containers. A water charge refers to an explosive breach charge that is tamped with water, typically consisting of two water bags and some detcord in the middle. Soldiers hit upon the idea to use saline-filled IV bags, which are commonly carried by medics, for such tamping and the practice spread to police organizations as well. While effective, these water charges are not without their downsides. Water is heavy and difficult to transport; it also makes the explosive charge heavier and more difficult to place. Special adhesives or a prop stick may be necessary to hold the charge in place. This adds complexity to the breach and the prop stick (if one is used) can become shrapnel. After detonation, the water will splash over the breach point and can present a slip hazard. Additionally, lower-than-freezing temperatures will render water unusable as a tamping agent. As a result, synthetic gel tamping agents have been developed as alternatives.
In addition to their tactical use, explosives have been used for search and rescue and other critical access situations.
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