TM-46 mine

Last updated March 26, 2024

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.^[1]

Combat use

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.

Action

MVM-583 fuze

The MVM-583 is a mechanical pressure fuze. The activation pressure of this fuze is 140 kf. It comprises a striking mechanism, safety pin and the MD-6N shock tube detonator.

Upon a vehicle driving over a TM-46 mine equipped with this fuze, the lid of the mine deforms along with the fuze. Upon further deformation, the tip of the fuze casing cuts through the diaphragm in the mine, releasing the striking mechanism, which activates the MD-6N detonator, and causes the explosion of the main charge of the mine.^[2]

MVSh-46 fuze

The MVSh-46 is a mechanical tilt-rod fuze without a safety mechanism. The activation pressure of this fuze is 120–450 kf. The required deviation of the tilt-rod from its initial composition is 25–30°. It comprises a striking mechanism and the MD-10 shock tube detonator.

Upon a vehicle driving over a TM-46 mine equipped with this fuze, the MVSh-46 deforms, activating the MD-10 detonator and causing the explosion of the main charge of the mine.^[2]

TMN-46 variant

The TMN-46 is a variant of the mine fitted with a secondary pull-action fuze MUV-2 (Rus. МУВ-2) well on the bottom (where it cannot be seen), which is slightly off-set from the centre of the mine. It is connected with a thin strip of wire to a peg inserted into the ground. The MUV-2 fuze is hooked to an MD-6N (Rus. МД-6Н) shock tube detonator, which functions as an anti-handling device. Upon trying to move the mine, the wire pulls the fuze, and the mine detonates.^[2]

Upon an attempt at dislocation of the TMN-46 mine, the wire attached between the MUV-2 fuze and the peg pulls the safety pin. The fuze actives MD-6N detonator and causes it to explode along with the main charge of the mine.^[2]

Specifications

Diameter:^[1]^[2] 305 mm
Height^[1]^[2]
- With MVM-583 fuze: 108 mm
- With MVSh-46 tilt rod fuze: 260 mm
Activation pressure:^[1]^[2] 120–450 kf (21 kg tilt pressure)
Weight^[1]^[2]
- Full assembly: 8.6 kg
- Charge: 5.7 kg (TNT)

Related Research Articles

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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).

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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.

<span class="mw-page-title-main">TM-57 mine</span>

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.

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The PMN series of blast anti-personnel mines were designed and manufactured in the Soviet Union. They are one of the most widely used and commonly found devices during demining operations. They are sometimes nicknamed "black widow" because of their dark casings.

<span class="mw-page-title-main">VS-50 mine</span> Italian anti-personnel mine

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.

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The TM-44 was a circular metal-cased Soviet anti-tank landmine used during the Second World War. The mine's case consisted of a short cylinder with the entire top surface being used as a pressure plate. The mine was normally painted olive drab and was broadly similar to the earlier, smaller, TM-41 mine.

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.

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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 ML-7 is a Soviet booby trap mine that serves the purpose of an anti-handling device for explosive charges or other anti-personnel mines. The ML-7 is generally used with PMN-1, PMN-2 and PMN-4 mines, but can also be used with any other item over 0.3 kg in weight.

References

1 2 3 4 5 Barrett Hazeltine; Christopher Bull (2003). Field Guide to Appropriate Technology. Academic Press. p. 853. ISBN 978-0-12-335185-2.
1 2 3 4 5 6 7 8 Инженерные Боеприпасы. Руководство по материальной части и применению. Книга первая (in Russian). г.Москва: Военное издательство министерства обороны СССР. 1976. pp. 81–89.

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[HazeltineBull2003-1] 1 2 3 4 5 Barrett Hazeltine; Christopher Bull (2003). Field Guide to Appropriate Technology. Academic Press. p. 853. ISBN 978-0-12-335185-2.

[:3-2] 1 2 3 4 5 6 7 8 Инженерные Боеприпасы. Руководство по материальной части и применению. Книга первая (in Russian). г.Москва: Военное издательство министерства обороны СССР. 1976. pp. 81–89.

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