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The Adrushy is an Indian glass-reinforced, plastic-cased anti-tank landmine.
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The Adrushy is an Indian glass-reinforced, plastic-cased anti-tank landmine.
The mine uses a copper-lined shaped charge to attack the underside of vehicles as they pass over the mine. The shaped charge is claimed to be able to penetrate in excess of 100 mm of armour. The mine uses a battery-powered electronic fuzing which uses a combination of a seismic sensor and a magnetic influence sensor to trigger the mine at the optimal point. It is fitted with a tilt-based anti-handling device: once armed the mine will trigger if it is tilted more than 20 degrees. The electronic fuze allows the mine to self-neutralize after a programmable period of 10, 20, 40, 80 or 120 days.
The mine is somewhat similar in appearance to the Italian SB-MV/1 mine.
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The GATOR mine system is a United States military system of air-dropped anti-tank and anti-personnel mines developed in the 1980s to be compatible with existing cluster dispensers. It is used with two dispenser systems—the Navy 230 kg (500 lb) CBU-78/B and the Air Force 450 kg (1,000 lb) CBU-89/B. Additionally the mines are used with the land- and helicopter-based Volcano mine system.
The Tellermine 43 was a German circular steel cased anti-tank blast mine used during the Second World War. It was a simplified version of the Tellermine 42, which enabled simpler production techniques. Between March 1943 and the end of World War II, over 3.6 million Tellermine 43s were produced by Germany. Copies of the mine were produced by several countries including Denmark (M/47), France and Yugoslavia (TMM-1).
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 AT2 mine is a scatterable anti-tank mine developed by Dynamit Nobel. It can be scattered from artillery rockets or from mine laying systems, and is in service with the British, German and Norwegian armed forces. AT2 mines were donated to Ukraine by Germany.
The VS-50 is a circular plastic-cased anti-personnel blast mine that entered production in 1985. It was formerly made by the now-defunct Valsella Meccanotecnica SpA, an Italian high-tech defence company specialized in area denial systems. The company also the made the Valmara 69, and was one of the first to implement plastic construction for landmines. The VS-50's design is similar to that of the TS-50 and VS-MK2 mines. It is blast resistant and can be used in a minimum metal configuration. Though unlikely to kill, its explosive charge is quite sufficient to destroy the victim's foot, being capable of penetrating 5 mm of mild steel leaving an 80 mm-diameter hole.
The Hohl-Sprung Mine 4672 or Hohlladungs-Spring-Mine 4672 was a German anti-tank mine, together with the Panzer stab 43. Developed during the Second World War it was the first landmine to combine a shaped charge anti-tank warhead with a tilt rod fuze.
The M21 is a circular United States anti-tank landmine that uses a Misznay Schardin effect warhead. The mine uses an M607 pressure fuse, which can be adapted as a tilt rod fuze. The mine is triggered either by pressure, or by the tilt rod being forced beyond 20 degrees from the vertical by a force of more than 1.7 kg, either of these actions results in pressure being transferred via a bearing cap to a Belleville spring, which inverts, driving the firing pin into the M46 detonator. The M46 charge first ignites a black powder charge, which blows off the mine's cover, and clears any earth or debris that may have been on top of the mine. A fraction of a second later the main warhead detonates, driving and compressing a steel plate upwards, with enough force to penetrate 76 mm of armour at a distance of 530 mm. Approximately 200,000 M21 mines were produced in the U.S. and licensed copies, the K441 and K442, were produced in South Korea.
ADWAT is a French anti-tank blast mine used with the Matenin mine laying system. The mine has the same casing as the MI AC PR series of mines. The mine has a mechanical and electronic fuze. The mine incorporates a 30-minute arming delay, after which either the electronic or mechanical fuze can trigger the mine. The electronic fuze can be programmed using an external programmer with a three-pin connection to self-neutralize, self-destruct and act as an anti-handling device, with an active period of between one and 365 days.
The PT Mi-U is a circular Czech anti-tank mine with a Misznay Schardin effect warhead. It can be used with a conventional pressure fuze or a tilt rod fuze.
The VS-SATM1 is an Italian scatterable anti-tank landmine that was produced by Valsella Meccanotecnica SpA. The mine can be scattered by a GRILLO-128 man-portable single-tube launcher system or a VS-MDH helicopter based system. The mine has six pop-out fins which slow its descent and improve the dispersion characteristics.
The 4AHM-100, AHM-200, AHM-200-1, AHM-200-2, PMN-150, and PMN-250 are Bulgarian directional fragmentation mines that can be used with proximity fuzes to function as anti-helicopter mines.
The FFV 028 is a series of steel cased Swedish anti-tank mines that use electronic fuzes. The mines are circular, with a large Misznay Schardin effect warhead in the center of the mine, with the fuzing and sensor electronics located in the dead space above the main charge. The design of the mine dates from the 1970s and uses a magnetic influence sensor to detonate the mine, making it able to attack the full width of armoured vehicles.
The VS-HCT series of mines are Italian plastic cased anti-tank mines that use Misznay Schardin effect warheads and have a dual seismic and magnetic fuze. The mines are no longer produced and differ in size and shape.
The BM/85 is an Italian blast resistant bounding anti-personnel mine that was produced by Tecnovar italiana SpA. The mine is cylindrical with a three pronged tilt/pressure fuze on the top with a central post for attaching a tripwire. A plastic safety clip prevents the fuze from tilting when in transit. Once the pressure clip is removed the mine is armed. Once the fuze is pulled sideways by a trip wire or by downward pressure, the mine is triggered. A small charge launches the mine to a height of about 0.45 meters where it explodes scattering 1,000 fragments to a lethal radius of about 25 meters.
The MPB is a Polish off-route anti-tank mine. It was developed by BELMA with its partner Military Institute of Engineer Technology. The MPB consists of a metal cylinder filled with explosives, mounted horizontally in an adjustable frame. The mine is intended to be hidden from direct view of the intended target, off to the side of a probable vehicle route, usually a road, to attack the weaker armour on the sides and rear of a vehicle. The mine can be triggered by either a contact fuze or an influence fuze based on infrared and acoustic sensors, and is also fitted with an anti-handling device. When used with the passive infrared fuze, an acoustic sensor detects approaching vehicles and activates the infrared sensor, which triggers the mine at an optimal moment as the target passes. The mine can be programmed to self-destruct after either 1, 10 or 30 days have passed.
The MSM MK2 is a Finnish belly attack anti-tank mine. The mine has a circular ribbed plastic case that is tapered towards the bottom. It uses an electronic fuze with a combination magnetic and seismic fuze; it also has an anti-handling device. The mine is armed by inserting an arming pin, which completes an electronic circuit. The mine indicates that it is armed by lighting a small LED light which switches off after 10 minutes. When a vehicle approaches, vibrations travelling through the ground trigger the seismic sensor, which activates the magnetic sensor. When a vehicle passes over the mine, the warhead is triggered. First a clearing charge fire, removing up to 100 millimeters of earth from the top of the mine, then a copper-lined Misznay Schardin effect warhead is triggered. This projects a slug of copper at high velocity into the bottom of the target.
The TMK-2 is a Soviet steel cased anti-tank mine. It uses a tilt-rod fuze combined with a shaped charge to attack the belly of vehicles as they pass over the mine. It was originally designed in 1955, but is now obsolete. The mine consists of a case shaped like two truncated cones joined at the base. The MVK-2 tilt rod assembly is held to one side of the mine. The lower truncated cone contains the main charge, and dished metal charge liner.
The PTM-3 is a Soviet scatterable self-liquidating shaped charge anti-tank mine. The mine's case is made up of a stamped steel body with notches in its side. The notches allow the mine to produce a shaped charge effect on five sides - 4 on the sides, and one on the end face. The mine has two arming stages - pyrotechnic and mechanical, and has a magnetic influence battery-powered fuze BT-06. The mine can be delivered using the BM-30 Smerch (9M55K4), BM-27 Uragan (9M59), BM-21 Grad (9M22K) MLRS, helicopter-mounted minelaying system VSM-1, remote mining machine UMZ or portable mining kit PKM. It cannot be placed manually, and must only be placed using remote minelaying systems listed above.
The MW-1 is a German munitions dispenser similar to the British JP233. It is designed to be carried on the Tornado IDS, although it can be carried on the Lockheed F-104 Starfighter and the McDonnell Douglas F-4 Phantom II. The MW-1 started to be phased out after the German Government ratified the Convention on Cluster Munitions in 2009.
Adrushy Mk-II is an Indian anti-tank mine that features a shaped charge and a magnetic influence fuze. The mine is capable of discriminating between tanks and tank trawls using a sensor employing mutual induction.