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The MON-100 is a circular, sheet metal bodied, directional type of anti-personnel mine designed and manufactured in the early 1960s by the Soviet Union. It is designed to wound or kill by fragmentation and resembles a large bowl.
The mine is reported to be deployed in Angola, Mozambique, South Africa and Zambia. [1]
The MON-100 mine body has a smooth, well finished appearance with a webbing handle mounted on the upper edge. It is usually attached to a mounting shackle by wing nuts on either side of the mine body (the shackle is connected to a spike for securing the mine to buildings, trees etc.). The concave face of the mine has a detonator cavity in its center (this is the side aimed at the target).
The mine contains 2 kg of explosive to propel 450 steel rod fragments to a lethal range of 100 m (thus the "100" in the name), [2] at maximum range the spread of the fragmentation is 9.5 m. The mine alone weighs 5 kg but with the shackle and mounting spike the weight is 7.53 kg. The MON 100 can be command actuated using a PN manual inductor attached by demolition cable to an EDP-R electric detonator. It can also be actuated by a variety of booby trap (BT) switches including:
The MON-100 will usually be mounted above ground level on the surface or up in trees to give the greatest dispersion of fragments. The mine can be located visually or with metal detectors under most field conditions. Depending on its actuation method the MON-100 may be resistant to blast overpressure from explosive breaching systems like the Giant Viper and M58 MICLIC. The mine is also produced for export to Poland.
The Claymore mine is a directional anti-personnel mine developed for the United States Armed Forces. Its inventor, Norman MacLeod, named the mine after a large medieval Scottish sword. Unlike a conventional land mine, the Claymore may be command-detonated, and is directional, shooting a wide pattern of metal balls into a kill zone. The Claymore can also be activated by a booby-trap tripwire firing system for use in area denial operations.
"Mills bomb" is the popular name for a series of British hand grenades which were designed by William Mills. They were the first modern fragmentation grenades used by the British Army and saw widespread use in the First and Second World Wars.
Type 72 Non-Metallic is a Chinese circular, plastic bodied landmine which is designed to damage or destroy a vehicle by blast effect.
The MON-50 is a Soviet rectangular, slightly convex, plastic bodied, directional type of anti-personnel mine designed to wound or kill by explosive fragmentation. It first entered service in 1965 and is a copy of the American M18 Claymore with a few differences. Its name is derived from Russian мина осколочная направленного, "directional fragmentation mine".
The MRUD is a Yugoslav plastic bodied, convex rectangular directional type anti-personnel mine designed to wound or kill by fragmentation. It is broadly similar to the M18A1 Claymore mine.
The MON-90 is a Claymore-shaped, plastic bodied, directional type of anti-personnel mine designed in the Soviet Union. It is designed to wound or kill by fragmentation. The mine is similar in appearance to the MON-50, but is approximately twice the size with a much greater depth.
The MON-200 is a directional type anti-personnel mine designed and manufactured in Soviet Union. It is an enlarged version of the MON-100 mine.
An anti-personnel mine or anti-personnel landmine (APL) is a form of mine designed for use against humans, as opposed to an anti-tank mine, which target vehicles. APLs are classified into: blast mines and fragmentation mines; the latter may or may not be a bounding mine.
The POMZ, POMZ-2 and POMZ-2M are three types of Soviet-made stake mounted anti-personnel fragmentation mine. The POMZ mine was used during the Second World War. It was superseded by the POMZ-2, and later by the improved POMZ-2M. These mines have been used in numerous conflicts, including the Vietnam War and the Korean War.
The TM-57 mine is a large, circular Soviet metal-cased blast anti-tank mine. It can either be triggered by a pressure or a tilt-rod fuze. A development of the TM-46 mine, it is found in Africa, the Middle East, and South East Asia.
The TM-46 mine is a large, circular, metal-cased Soviet anti-tank mine. It uses either a pressure or tilt-rod fuze, which is screwed into the top. Anti-tank mines with this type of fuze were capable of inflicting much more damage to armored vehicles, when compared to a typical anti-personnel mine.
The M7 is a small, metal-cased United States anti-tank blast mine that was used during the Second World War. It was based on the British Hawkins grenade. Approximately 2.5 million were produced before production ceased, and although it has long since been withdrawn from U.S. service, it can be found in Angola, Burma, Cambodia, Chad, Eritrea, Ethiopia, Korea, Lebanon, Myanmar, Somalia, Thailand, and Zambia.
The AUPS is a circular Italian bakelite cased minimum metal anti-personnel blast mine. The mine can be adapted with a steel fragmentation jacket and stake into a fragmentation stake mine. The mine is constructed in two halves, with the upper half containing the pressure fuse mechanism, the lower half contains the main charge and the detonator. The mine case is normally unpainted bakelite brown.
The NR-413 is a Belgian trip wire activated anti-personnel stake mine. The main body of the mine is wine bottle shaped, with an NR 410 tripwire fuse screwed into a fuse well on the top of the mine. Under the fuse well is a detonator and a row of booster pellets. Wrapped around the detonator and booster pellets is the main charge. An internally square cross-sectioned steel wire is coiled around the outside of the mine, which give a fragmentation effect. The mine produces 600 fragments with a velocity of approximately 1,660 metres per second. It has an effective range of around 15 metres. A variant is produced with a cast steel fragmentation jacket.
The MBV-78-A2 is a small cylindrical Vietnamese anti-personnel fragmentation stake mine. It is unrelated to the MBV-78-A1. The mine has a large plastic head which contains the main charge wrapped around the detonator. A fragmentation layer of steel pieces set into wax surrounds the main charge. The plastic head has two mounting lugs for stake mounting the mine. A Vietnamese copy of the Russian MUV fuze is typically used with the mine, although other fuzes could be used.
The T-IV was a Soviet anti-tank mine developed before and used during the Second World War. The mine has a metal case with a wooden pressure plate attached to the top of the mine. It is similar in configuration to the later TM-38.
The VAR/40, VAR/100 and VAR/100/SP are Italian anti-personnel blast landmines produced by the Tecnovar italiana S.p.A. company.
The MAPED F1 is a claymore-shaped plastic-bodied directional anti-personnel mine which is designed to wound or kill by fragmentation. It has been the standard directional anti-personnel mine of the French army since the late 1970s.
In military munitions, a fuze is the part of the device that initiates its function. In some applications, such as torpedoes, a fuze may be identified by function as the exploder. The relative complexity of even the earliest fuze designs can be seen in cutaway diagrams.
The electric flash-lamp uses electric current to start flash powder burning, to provide a brief sudden burst of bright light. It was principally used for flash photography in the early 20th century but had other uses as well. Previously, photographers' flash powder, introduced in 1887 by Adolf Miethe and Johannes Gaedicke, had to be ignited manually, exposing the user to greater risk.