The No 8 mine is a South African circular plastic cased minimum metal anti-tank blast mine. The mine has a large pressure plate on top of which is an oversize arming lever whose position at either of two sets of lugs either indicates "ARMED" or "SAFE". The mine can be fitted with a number of electronic anti-handling devices as well as seismic and magnetic influence devices. The mine is found in Angola, Namibia, Zambia, and Zimbabwe.
An anti-tank mine is a type of land mine designed to damage or destroy vehicles including tanks and armored fighting vehicles.
Angola, officially the Republic of Angola, is a west-coast country of south-central Africa. It is the seventh-largest country in Africa, bordered by Namibia to the south, the Democratic Republic of the Congo to the north, Zambia to the east, and the Atlantic Ocean to the west. Angola has an exclave province, the province of Cabinda that borders the Republic of the Congo and the Democratic Republic of the Congo. The capital and largest city of Angola is Luanda.
Namibia, officially the Republic of Namibia, is a country in southern Africa. Its western border is the Atlantic Ocean; it shares land borders with Zambia and Angola to the north, Botswana to the east and South Africa to the south and east. Although it does not border Zimbabwe, less than 200 metres of the Zambezi River separates the two countries. Namibia gained independence from South Africa on 21 March 1990, following the Namibian War of Independence. Its capital and largest city is Windhoek, and it is a member state of the United Nations (UN), the Southern African Development Community (SADC), the African Union (AU), and the Commonwealth of Nations.
RDX is an organic compound with the formula (O2NNCH2)3. It is a white solid without smell or taste, widely used as an explosive. Chemically, it is classified as a nitramide, chemically similar to HMX. A more energetic explosive than TNT, it was used widely in World War II and remains common in military applications.
The Tellermine 42 (T.Mi.42) was a German metal-cased anti-tank blast mine used during the Second World War. The mine was a development of the Tellermine 35 with improved resistance to blast. It was followed by the simplified Tellermine 43.
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 PP Mi-D mine is a Czechoslovakian copy of the German Second World War Schu-mine 42 anti-personnel mine.
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 fuze or tilt-rod, which is screwed into the top. Anti-tank mines with this type of fuze were capable of inflicting much more damage to armored vehicles. The TMN-46 is a variant of the mine fitted with a secondary fuze well on the bottom which is slightly off-set from the centre of the mine. This secondary fuze well can be fitted with a pull-fuze which functions as an anti-handling device. The mine was used by the North Vietnamese forces during the Vietnam War, and is found in many countries in Africa, the Middle East and South East Asia.
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 M19 is a large square plastic cased United States anti-tank blast mine. Intended to replace the M15 mine, the design dates from the mid-1960s and contains only two metal components: the copper detonator capsule and a stainless steel firing pin which weighs 2.86 grams. It is a minimum metal mine, which makes it very difficult to detect after it has been emplaced. This mine is produced under licence in Chile, South Korea and Turkey. A copy is produced in Iran. It is found in Afghanistan, Angola, Chad, Chile, Cyprus, Iran, Iraq, Jordan, South Korea, Lebanon, the Western Sahara, and Zambia.
The SACI is an Italian Bakelite cased minimum metal anti-tank blast landmine. A number of variants were produced with varying amounts of explosive. The mine has three fuze wells on the top surface, that are covered with a pressure plate. Several types of fuzes were made including a low metal fuze. Combined with the low metal fuze the mine is very difficult to detect with mine detectors.
The Riegel mine 43 or is a German steel cased anti-tank bar mine used during the Second World War. The mine is a long thin rectangle. It consists of a lower and upper metal tray, and an internal metal-cased explosive block. It uses two ZZ42 fuzes inserted into either end of the internal block, although it can be used with an additional pressure fuze on the top. The mine is similar to the Italian B-2 mine. A variant, the Riegel mine 44 was also produced with a different fuze. Approximately 3,051,400 were produced between 1943 and 1945.
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 a licensed copies, the K441 and K442, were produced in South Korea.
The P2 Mk2 and P3 Mk2 are Pakistani plastic cased minimum metal anti-tank blast mines. The P2 Mk2 has a square case with a central circular ribbed pressure plate, the P3 is circular with a central circular pressure plate. Both mines use anti-personnel mines as the fuse, typically the either the P4 Mk1 or P2 Mk2 anti-personnel mines. The anti-personnel mine sits in a cavity below the pressure plate, when enough pressure is place on the pressure plate of the mine, it collapses onto the anti-personnel mine triggering it and the main charge which sits below it. A yellow canvas carrying strap is normally fitted to the side of the mine. The mines have a secondary fuse well on the bottom which can be used with anti-handling devices. A GLM-2 electronic booby trap can be fitted to the cavity under the pressure plate. The mine is supplied with a steel disc which makes the mine more easily detectable, although this is seldom used. Since 1997 only a detectable version of the mine has been produced, and to comply with the Convention on Conventional Weapons amended protocol II, Pakistani stocks of the mine are being retrofitted with steel detection discs. The mines are found in Afghanistan, Angola, Eritrea, Ethiopia, Pakistan, Somalia, and Tajikistan.
The TMA-1 and TMA-1A are circular, plastic cased Yugoslavian minimum metal anti-tank blast mine. The mine consists of an upper plastic pressure plate, and the lower body containing the main charge. The pressure plate has eight triangular raised sectors, and a central fuze cap. The pressure plate is held in place by four plastic pins, which when suffient pressure is applied, shear allowing the pressure plate to collapse onto the mine body, triggering the UANU-1 fuze. A secondary fuze well is provided in the base of the mine, allowing the use of anti-handling devices. The mine is found in Bosnia, Croatia and Kosovo.
The TMA-2 is a rectangular plastic cased Yugoslavian minimum metal anti-tank blast mine. It is very similar in appearance and size to the PT-56, which it replaced. The mine consists of two sections, an upper ribbed pressure plate with two large circular fuze caps, and a lower base section containing the main charge and two primary fuze wells containing UANU-1 fuzes. A secondary fuze well is provided in the base of the mine for an anti-handling device.
The TMA-3 is a circular Yugoslavian minimum metal anti-tank blast mine. It is very similar in appearance to the TMA-4. The mine consists of a cast circular block of explosive cased in resin reinforced fabric. The top of the mine has three fuze wells which each take a UTMA-3 fuze, and a fourth secondary fuze well is provided in the base of the mine to fit an anti-handling device. The fuze wells may also accept a number of other fuzes, including the UPROM-1, and other fuzes, potentially allowing tripwire activation. The small pressure plate area of the UTMA-3 fuzes gives the mine good resistance to minefield clearance techniques which used blast overpressure techniques i.e. explosive charges.
The TM 65 is a circular Finnish minimum metal anti-tank blast mine. It is broadly based on the Russian TM-62 mine. The mines body is made from a thin shell of fibreglass over a cast block of explosive, with a central fuze well that holds the pressure fuze. The original TM 65 used a US-65 fuze as used in the SM-65 anti-personnel mine, the later TM 65 77 uses a pressure fuze similar to the Russian MV-5 fuze called Painesytytin 77.
The MPP-B "Wierzba" is a fibreglass Polish minimum metal anti-tank blast mine. The mine is similar to the Russian TM-62 series and is compatible with the same fuses. It is normally used with a MWCz-62 fuse with a clockwork arming delay, which is a copy of the Russian MVCh-62. The mine has a secondary fuse well in the base of the mine for anti-handling devices or for a command detonation device. It can also be used with a ZMN electronic combined pressure and magnetic influence fuse.
The Model 67 is a square plastic cased Austrian minimum metal anti-tank blast mine. The mines pressure fuze sits on the top of the mine, with a provision for an anti-handling device. A second version of the mine the ATM-75 is similar to the Model 67 mine.
The MAT/5 is an Italian circular, plastic-cased minimum metal blast resistant anti-tank blast mine. It uses a pneumatic fuze which is resistant to shock and blast, and is also claimed to be resistant to mine flails and mine rollers. The mine's plastic case is waterproof, and it can be laid in shallow water. Additionally the mine will function upside down. The mine can be fitted with anti-handling devices. The mine is no longer in production.
The NV-41 was a wooden-cased Soviet anti-tank blast mine used during the Second World War. The mine consists of a square wooden box with a filling plug on the bottom. The top of the box is covered by a thin pressure lid, which covers a pressure plate held up by a spring. Sufficient pressure on the lid collapses it down onto the pressure plate. Downward movement of the pressure plate moves down a pressure plunger, which in turn levers up the striker retaining lever, releasing the spring-loaded striker and allowing it to impact the stab sensitive detonator, triggering the main charge.
The L.P.Z. mine or Leichte Panzermine was a circular, metal-cased German anti-tank mine produced during the Second World War. The mine was accepted into service in 1941, and were intended for use by Paratroops. Production of the mine ended in 1942 with only 31,700 mines produced. The mines were first used during Operation Merkur, the airborne invasion of Crete and were still in use at the end of the war.
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