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			{{Short description\|Soviet anti-tank mine}}
	]
		⚫	{{more footnotes\|date=December 2014}}
			{{Infobox weapon
			\| name = TM-62 mine
			\| image = 27th Independent Sevastopol Guards Motor Rifle Brigade (183-19).jpg
			\| origin = ]
			\| type = Anti-tank blast mine
			\| is_explosive = yes
			\| used_by = See '']''
			\| wars = ]<ref name="HumanRightsWatch1997" /><br>]<ref name="HumanRightsWatch1997" /><br>]<ref name="HumanRightsWatch1997">{{Cite web \|url=https://www.hrw.org/reports/1997/lmsa/ \|title=STILL KILLING: Landmines in Southern Africa \|date=1997 \|website=Human Rights Watch \|language=en \|access-date=2025-01-10 \|archive-url=https://web.archive.org/web/20240915162044/https://www.hrw.org/reports/1997/lmsa/ \|archive-date=2024-09-15 }}</ref> <br>]<ref name="HumanRightsWatch1997" /><br>]<ref name="HumanRightsWatch1997"/><br>]<ref name="NEE2021">{{Cite web \|last=Kuzio \|first=Taras \|date=2021-04-16 \|title=Mines, Karabakh and Armenia’s crisis \|url=https://neweasterneurope.eu/2021/04/16/mines-karabakh-and-armenias-ccrisis/ \|access-date=2025-01-10 \|website=New Eastern Europe \|language=en-GB \|archive-url=http://web.archive.org/web/20250111071707/https://neweasterneurope.eu/2021/04/16/mines-karabakh-and-armenias-ccrisis/ \|archive-date=2025-01-11}}</ref><br>]<ref name="AiF2024" /><br>]<ref name="NEE2021" />
			\| variants = See '']''
			}}
			]

	'''TM-62''' is ~~the designation for~~ a series of ] ]. ~~The~~ ~~mines~~ ~~have~~ a central fuze and typically ~~have~~ a 7.5~~ ~~kg explosive charge, ~~however~~ ~~they~~ ~~vary~~ greatly in detail. The ~~mines~~ can be laid manually or automatically from a mine laying machine including the PMR-1, PMR-2 wheeled towed mine layers, the GMZ tracked mine laying vehicle and the VMR-2 helicopter mine laying system.		The '''TM-62''' is a series of ] ] produced in various variants. It served as the primary anti-tank landmine for the Soviet military.<ref name="CISR Munitions Guide" /> It has a central ] and typically a {{convert\|7.5\|kg}} explosive charge, but the variants differ greatly in detail. The mine can be laid manually or automatically from a mine laying machine including the PMR-1, PMR-2 wheeled towed mine layers, the ] tracked mine laying vehicle and the VMR-2 helicopter mine laying system. The TM-62 can be fitted with the same fuzes as the ], which include MVN-72 and MVN-80 fuzes, which are vibration and magnetism sensitive. The mine was used in the ].<ref name="AiF2024">{{cite web \| last=Мельникова \| first=Виктория \| title=ВС РФ применили переделанные мины ТМ-62 для подрыва "опорников" противника \| website=AiF \| date=2024-08-02 \| url=https://aif.ru/society/army/vs-rf-primenili-peredelannye-miny-tm-62-dlya-podryva-opornikov-protivnika \| language=ru \| access-date=2024-08-03 \|archive-url=https://web.archive.org/web/20250111071219/https://aif.ru/society/army/vs-rf-primenili-peredelannye-miny-tm-62-dlya-podryva-opornikov-protivnika \|archive-date=2025-01-11}}</ref>

			==Russo-Ukrainian War==
	In a static test, the TM-62M proved capable of penetrating the hull of a ], killing the simulated crew of animals inside.
			Both Ukrainian and Russian soldiers have been observed to use modified TM-62s as ]s.<ref>{{Cite web \|last=TAB \|date=2024-07-14 \|title=Anti-Tank Mines Used As Satchel Charges \|url=https://armourersbench.com/2024/07/14/anti-tank-mines-used-as-satchel-charges/ \|access-date=2024-12-11 \|website=The Armourers Bench \|language=en \|archive-url=https://web.archive.org/web/20250111073452/https://armourersbench.com/2024/07/14/anti-tank-mines-used-as-satchel-charges/ \|archive-date=2025-01-11}}</ref> In addition, Ukrainian forces have deployed drones equipped with modified TM-62 payloads for precision strikes.<ref>{{Cite web \|last=TAB \|date=2023-10-01 \|title=Heavy Drone Bombers Dropping Anti-Tank Mines \|url=https://armourersbench.com/2023/10/01/heavy-drone-bombers-dropping-anti-tank-mines/ \|access-date=2025-01-11 \|website=The Armourers Bench \|language=en \|archive-url=https://web.archive.org/web/20250111073832/https://armourersbench.com/2023/10/01/heavy-drone-bombers-dropping-anti-tank-mines/ \|archive-date=2025-01-11}}</ref><ref>{{Cite web \|url=https://www.msn.com/en-ca/news/world/ukraines-ingenious-use-of-drones-turns-battlefield-tides/ar-AA1wS0AA \|title=Ukraine's ingenious use of drones turns battlefield tides \|website=MSN \|language=en \|access-date=2025-01-13}}</ref> Strikes by a Russian UAV drone, the "Molniya-2," using a TM-62 mine as a warhead, have also been documented starting January 2025.{{Citation needed\|date=January 2025}}

	The TM-62 series of mines can be fitted with the same fuzes as the TM-72 series of mines, which include MVN-72 and MVN-80 fuzes which are vibration and magnetism sensitive.

	==Variants==		==Variants==
			]
	* TM-62M ~~- The TM-62M uses~~ a ~~round~~ metal case. It is the most widely employed ~~of the TM-62 series of mines~~.		* TM-62M, with a circular metal case. It is the most widely employed variant.
	* TM-62B - ~~The TM-62B~~ paper or cardboard case ~~and is~~ basically a block of cast explosive with a fuze set into the center.		* TM-62B, with a paper or cardboard case – basically a block of cast explosive with a fuze set into the center.
	* TM-62D ~~- The TM-62D uses~~ a wooden case.		* TM-62D, with a wooden case.
	* ~~TM-62P, TM-62P2, TM-62P3 - The~~ TM-62P, TM-62P2 and TM-62P3 ~~use~~ plastic cases. The TM-62P and TM-62P2 mine cases have ribbed sides, whereas the TM-62P3 has smooth ~~case~~.		* TM-62P, TM-62P2 and TM-62P3, with plastic cases. The TM-62P and TM-62P2 mine cases have ribbed sides, whereas the TM-62P3 has a smooth casing.
	* TM-62T ~~- The TM-62T has~~ a fabric and epoxy casing, ~~with~~ a central fuze.		* TM-62T, with a fabric and epoxy casing and a central fuze.

	==Fuzes==		==Fuzes==
	* MVZ-62		* MVZ-62
	* MVCh-62 - ~~The~~ ~~MVCh-62~~ ~~uses~~ a clockwork arming delay of 30 to 120 seconds.		* MVCh-62, the standard fuze with a clockwork arming delay of 30 to 120 seconds.
	* MVN-62		* MVN-62
	* MVN-72 ~~- The MVN-72 fuze uses~~ a combination of electronics and clockwork, after an initial arming delay the magnetic influence fuze is enabled powered ~~from~~ a 1.5 V battery.		* MVN-72, with a combination of electronics and clockwork, after an initial arming delay the magnetic influence fuze is enabled, powered by a 1.5 V battery.
	* MVN-80 ~~- The MVN-80 is~~ an improved version of the MVN-72 ~~fuze~~.		* MVN-80, an improved version of the MVN-72.
	* VM-62Z		* VM-62Z
	* MVP-62 ~~- The MVP-62 uses~~ a pneumatic bellows arming delay of 20 to 300 seconds. The delay mechanism uses a minimum of metal making it difficult to detect when used with one of the minimum metal cases.		* MVP-62, with a pneumatic bellows arming delay of 20 to 300 seconds. The delay mechanism uses a minimum of metal making it difficult to detect when used with one of the minimum metal cases.
	* MVP-62M		* MVP-62M
	* ZN-97 ~~- polish~~ magnetic fuze		* ZN-97, a magnetic influence fuze made in Poland.

			Magnetic influence fuzes provide full-width attack, i.e. any part of the target vehicle passing over the mine will trigger detonation, not just the track or wheels. However, since magnetic fuzes are electronic, their operational life relies on battery power. Ultimately the battery will run down, after which the mine no longer functions. In contrast, a purely mechanical fuze (usually triggered via a ]) gives a much longer operational life (e.g., mines planted 50 years previously will still detonate if a target vehicle drives over them).

	==Specifications (TM-62M with MVZ-62 fuze)==		==Specifications (TM-62M with MVZ-62 fuze)==
	* Weight: 9.5~~ ~~kg		* Weight: {{convert\|9.5\|kg}}
	* Explosive content: 7.5~~ ~~kg of ] (although sometimes combinations of ]/TNT/] or ] mixes are used)		* Explosive content: {{convert\|7.5\|kg}} of ] (although sometimes combinations of ]/TNT/] or ] mixes are used)
	* Diameter: 320~~ ~~mm		* Diameter: {{convert\|320\|mm}}
	* Height: 128~~ ~~mm		* Height: {{convert\|128\|mm}}
	* Operating pressure: 150 to 550~~ ~~kg		* Operating pressure: {{convert\|150\|to\|550\|kg}}

			==Users==
			]
			*{{flag\|Afghanistan}}<ref name="HumanRightsWatch1999">{{Cite web \|url=https://www.hrw.org/reports/1999/landmine/WEBAS3.html \|title=Landmine Monitor: ASIA-PACIFIC NON-SIGNATORIES, AFGHANISTAN \|date=1997 \|website=Human Rights Watch \|language=en \|access-date=2025-01-10 \|archive-url=https://web.archive.org/web/20211215043601/https://www.hrw.org/reports/1999/landmine/WEBAS3.html \|archive-date=2021-12-15}}</ref>
			*{{flag\|Armenia}}
			*{{flag\|Angola}}<ref name="HumanRightsWatch1997" />
			*{{flag\|Belarus}}
			*{{flag\|Bulgaria}}
			*{{flag\|Georgia}}
			*{{flag\|Moldova}}<ref>{{Cite web \|url=http://archives.the-monitor.org/index.php/publications/display?url=lm/2024/moldova.html \|title=Landmine and Cluster Munition Monitor: Moldova \|website=Landmine and Cluster Munition Monitor \|language=en \|access-date=2025-01-12}}</ref>
			*{{flag\|Mozambique}}<ref name="HumanRightsWatch1997" />
			*{{flag\|Poland}}, as the ]<ref name="CISR Munitions Guide">{{Cite web \|url=https://www.jmu.edu/cisr/research/munitions-guide.shtml \|title=CISR Munitions Reference Guide \|website=James Madison University \|language=en \|access-date=2025-01-11 \|archive-url=https://web.archive.org/web/20250111080528/https://www.jmu.edu/cisr/research/munitions-guide.shtml \|archive-date=2025-01-11}}</ref>
			*{{flag\|Romania}}, as the ]<ref name="CISR Munitions Guide" />
			*{{flag\|Russia}}
			*{{flag\|Syria}}
			*{{flag\|Ukraine}}

			===Former users===
			* {{flag\|Soviet Union}}<ref name="CISR Munitions Guide" />

			==See also==
			*] anti-tank landmine
			*]

	==References==		==References==
			{{reflist}}
⚫	{{no footnotes\|date=December 2014}}
	* ''Jane's Mines and Mine Clearance ~~2005-2006~~''		* ''Jane's Mines and Mine Clearance 2005–2006''

	]		]

Latest revision as of 03:05, 13 January 2025

Soviet anti-tank mine

This article includes a list of general references, but it lacks sufficient corresponding inline citations. Please help to improve this article by introducing more precise citations. (December 2014) (Learn how and when to remove this message)

TM-62 mine

Type	Anti-tank blast mine
Place of origin	Soviet Union
Service history
Used by	See Users
Wars	Rhodesian Bush War South African Border War Angolan Civil War Mozambican Civil War Second Sudanese Civil War First Nagorno-Karabakh War Russo-Ukrainian War Second Nagorno-Karabakh War
Production history
Variants	See Variants

TM-62M – the wire safety clip is still in place; the mine has not been armed

The TM-62 is a series of Soviet anti-tank blast mines produced in various variants. It served as the primary anti-tank landmine for the Soviet military. It has a central fuze and typically a 7.5 kilograms (17 lb) explosive charge, but the variants differ greatly in detail. The mine can be laid manually or automatically from a mine laying machine including the PMR-1, PMR-2 wheeled towed mine layers, the GMZ-3 tracked mine laying vehicle and the VMR-2 helicopter mine laying system. The TM-62 can be fitted with the same fuzes as the TM-72, which include MVN-72 and MVN-80 fuzes, which are vibration and magnetism sensitive. The mine was used in the 2022 Russian invasion of Ukraine.

Russo-Ukrainian War

Both Ukrainian and Russian soldiers have been observed to use modified TM-62s as satchel charges. In addition, Ukrainian forces have deployed drones equipped with modified TM-62 payloads for precision strikes. Strikes by a Russian UAV drone, the "Molniya-2," using a TM-62 mine as a warhead, have also been documented starting January 2025.

Variants

TM-62M, with a circular metal case. It is the most widely employed variant.
TM-62B, with a paper or cardboard case – basically a block of cast explosive with a fuze set into the center.
TM-62D, with a wooden case.
TM-62P, TM-62P2 and TM-62P3, with plastic cases. The TM-62P and TM-62P2 mine cases have ribbed sides, whereas the TM-62P3 has a smooth casing.
TM-62T, with a fabric and epoxy casing and a central fuze.

Fuzes

MVZ-62
MVCh-62, the standard fuze with a clockwork arming delay of 30 to 120 seconds.
MVN-62
MVN-72, with a combination of electronics and clockwork, after an initial arming delay the magnetic influence fuze is enabled, powered by a 1.5 V battery.
MVN-80, an improved version of the MVN-72.
VM-62Z
MVP-62, with a pneumatic bellows arming delay of 20 to 300 seconds. The delay mechanism uses a minimum of metal making it difficult to detect when used with one of the minimum metal cases.
MVP-62M
ZN-97, a magnetic influence fuze made in Poland.

Magnetic influence fuzes provide full-width attack, i.e. any part of the target vehicle passing over the mine will trigger detonation, not just the track or wheels. However, since magnetic fuzes are electronic, their operational life relies on battery power. Ultimately the battery will run down, after which the mine no longer functions. In contrast, a purely mechanical fuze (usually triggered via a Belleville spring) gives a much longer operational life (e.g., mines planted 50 years previously will still detonate if a target vehicle drives over them).

Specifications (TM-62M with MVZ-62 fuze)

Weight: 9.5 kilograms (21 lb)
Explosive content: 7.5 kilograms (17 lb) of TNT (although sometimes combinations of RDX/TNT/Aluminium or Amatol mixes are used)
Diameter: 320 millimetres (13 in)
Height: 128 millimetres (5.0 in)
Operating pressure: 150 to 550 kilograms (330 to 1,210 lb)