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Antipersonnel mine


Anti-personnel mines are a form of mine designed for use against humans, as opposed to anti-tank mines, which are designed for use against vehicles. Anti-personnel mines may be classified into blast mines or fragmentation mines, the latter may or may not be a bounding mine.

The mines are often designed to injure, not kill, their victims in order to increase the logistical (mostly medical) support required by enemy forces that encounter them. Some types of anti-personnel mines can also damage the tracks on armoured vehicles or the tires of wheeled vehicles.

The International Campaign to Ban Landmines has sought to ban mines culminating in the 1997 Ottawa Treaty, although this treaty has not yet been accepted by a number of countries including the United States, Russia, the People's Republic of China, Pakistan and India.

Anti-personnel mines are used in a similar manner to anti-tank mines, in static "mine fields" along national borders or in defense of strategic positions as described in greater detail in the land mine article. What makes them different from most anti-tank mines, however, is their smaller size, which enables large numbers to be simultaneously deployed over a large area. This process can be done manually, via dispensers on land vehicles, or from helicopters or aircraft. Alternatively, they can be dispensed by cargo-carrying artillery shells.

Other uses specific to anti-personnel mines are where they are deployed on an ad hoc basis in the following situations:

Typically, anti-personnel blast mines are triggered when the victim steps on them. Their primary purpose is to blow the victim's foot or leg off, disabling them. Injuring, rather than killing, the victim is viewed as preferable in order to increase the logistical (evacuation, medical) burden on the opposing force.

When a person steps on a blast mine and activates it, the mine's main charge detonates, creating a blast shock wave consisting of hot gases travelling at extremely high velocity. The shock wave sends a huge compressive force upwards, ejecting the mine casing and any soil covering the mine along with it. When the blast wave hits the surface, it quickly transfers the force into the subject's footwear and foot. This results in a massive compression force being applied. In most cases, the victim's foot is blown off by the blast wave.


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