The TMA-4 is a circular plastic cased Yugoslavian minimum metal anti-tank blast mine. It is a modernized version of the TMA-3. The mine is basically a cast block of TNT with three fuze wells cut into it, encased in plastic. Three black plastic UTMA-4 fuzes are installed into the top surface of the mine. A thin rope carry handle is also provided. The small pressure plate area of the fuzes make the mine resistant to overpressure from explosive demining techniques. Additionally the low metal content of the mine make it very difficult to detect. Although no secondary fuze well is provided, it is possible that the mine could be fitted with improvised anti-handling devices.
Yugoslavia was a country in Southeastern and Central Europe for most of the 20th century. It came into existence after World War I in 1918 under the name of the Kingdom of Serbs, Croats and Slovenes by the merger of the provisional State of Slovenes, Croats and Serbs with the Kingdom of Serbia, and constituted the first union of the South Slavic people as a sovereign state, following centuries in which the region had been part of the Ottoman Empire and then Austria-Hungary. Peter I of Serbia was its first sovereign. The kingdom gained international recognition on 13 July 1922 at the Conference of Ambassadors in Paris. The official name of the state was changed to Kingdom of Yugoslavia on 3 October 1929.
An anti-tank mine is a type of land mine designed to damage or destroy vehicles including tanks and armored fighting vehicles.
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 mine is found in Albania, Angola, Bosnia, Chad, Croatia, Kosovo, Lebanon, Namibia, Sudan, and Western Sahara.
Albania, officially the Republic of Albania, is a country in Southeast Europe on the Adriatic and Ionian Sea within the Mediterranean Sea. It shares land borders with Montenegro to the northwest, Kosovo to the northeast, North Macedonia to the east, Greece to the south and a maritime border with Italy to the west.
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.
Bosnia and Herzegovina, sometimes called Bosnia–Herzegovina, and often known informally as Bosnia, is a country in Southeastern Europe, located within the Balkan Peninsula. Sarajevo is the capital and largest city.
Type 72 Non-Metallic is a Chinese circular, plastic bodied landmine which is designed to damage or destroy a vehicle by blast effect.
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 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 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 FMK-3 is a fibreglass cased Argentine anti-tank blast mine. It is produced by Direccion General de Fabricaciones Militares. The mine actually uses a FMK-1 anti-personnel mine as a fuze, the FMK-1 is modified with a pressure cap to increase the activation pressure. Argentina's stock of FMK-1 mines was modified in 2003 to prevent their use as anti-personnel mines, this involved welded an additional plastic pressure cap onto the mine. The mine has very little metal content, although an optional detection ring is provided with the FMK-1.
The PM-60 or K-1 is a German round plastic cased minimum metal anti-tank blast mine. The case of the mine consists of two halves joined together by sixteen plastic nuts, giving the mine a distinctive appearance. The top of the mine has a large pressure plate which rests on top of the fuze assembly. Two fuzes are available for the mine, a conventional ball bearing retained striker and a chemical fuze, containing a glass ampule of acid over a flash composition. When the mine is deployed with the chemical fuze it is very difficult to detect because the only metal in the mine is the detonator capsule. There is a secondary fuze well on the bottom of the mine that can accept a fuze allowing remote command detonation of the mine.
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 SB-81 is an Italian plastic cased minimum metal anti-tank blast mine dating from the early 1980s. The mine uses an air pressure based fuze, which gives it protection against overpressure and blast. It can therefore be regarded as a blast resistant mine. The mine can be scattered by hand or by mine laying systems.
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 MAT-76 is a large circular Romanian minimum metal anti-tank blast mine. It is similar to the MAT-62B mine, sharing a fuze. The mine is actually a cast block of TNT with a thin coating of fibreglass. The mine has a central fuze well that normally uses a P-62 pressure fuze, although it can be used with any of the fuzes designed for the Russian TM-62 and TM-72 series of mines. The bakelite plastic used in the fuze of a MAT-76 may become brittle in desert conditions, which can reduce the activation pressure. This may make the mine unstable i.e. can detonate simply by handling it. The mine is found in Angola, Iraq, Kuwait, Liberia, Mozambique, and Zambia.
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-5 and TMA-5A are rectangular plastic cased Yugoslavian minimum metal anti-tank blast mines. The mine's top surface has a single circular threaded fuze cap in the center, covering the fuze well. Additionally there is a small compartment for storing the fuze when disarmed. The corners of the mine have small posts to permit stacking of the mine. Although the mine does not have a secondary fuze well, it could easily be fitted with an improvised one in the field. The mine uses a single black plastic UANU-1 fuze.
The TMD-1 and TMD-2 are Yugoslavian wooden cased anti-tank blast mines, similar to the Russian TMD-B. The box consists of a wooden box, which contains the main cast TNT main charge. A webbing carrying handle is provided on one side of the mine. The fuze is placed in a central detonation well under the centre board of three that are fixed to the top of the mine. When sufficient pressure is placed on the boards, they collapse inwards, pressing on the installed fuze triggering the mine.
The TMM-1 is a circular, metal-cased, Yugoslavian anti-tank blast mine. It is a direct copy of the German Tellermine 43. The mine has a central fuze well that is covered by a screw on pressure plate. Two secondary fuze well are fitted to the side and bottom of the mine allowing the installation of anti-handling devices. The mine is found in Bosnia, Croatia, and Kosovo.
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 AC NM AE T1 is a Brazilian minimum metal anti-tank blast mine. The mine is believed to be in service with the Brazilian army, although production of the mine ceased in 1989. The mine has a square plastic main body, with a raised circular pressure plate and fuze. A carry handle is built into one side of the mine. It appears to be very similar to the PRB M3.
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.
ORDATA is a United States government database of landmines and other unexploded ordnance, developed to assist humanitarian demining work. The original version of ORDATA released in 1997 was CD-ROM based, and incorporated material from the earlier Minefacts program. ORDATA 2.0 was distributed on a CD-ROM and on the Internet. The database is hosted on the Center for International Stabilization and Recovery website, a part of James Madison University. In 2014-15 the interface underwent a revision and the data partially updated. The new site is known as the Collaborative ORDnance Data Repository (CORD) and is available online at https://www.jmu.edu/cisr/research/cord.shtml. An offline version is in development.
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