Jump to content

9M14 Malyutka

From Wikipedia, the free encyclopedia
(Redirected from Sagger AT-3)

9M14 Malyutka
AT-3 Sagger
Serbian-produced 9M142T copy
TypeAnti-tank missile
Place of originSoviet Union
Service history
In service1963–present
Used bySoviet Union and others
WarsVietnam War
Yom Kippur War
Western Sahara War
Ethiopian Civil War
Lebanese Civil War[1]
Iran–Iraq War
Gulf War
Croatian War of Independence
2006 Lebanon War
First Chechen War
Second Chechen War
Libyan Civil War
Syrian Civil War
War in Iraq (2013-2017)[2]
Yemeni Civil War (2014–present)
Saudi Arabian-led intervention in Yemen
Saudi–Yemeni border conflict (2015–present)
Tigray War
Israel–Hamas war
Production history
DesignerDesign Bureau of Machine-Building (KBM, Kolomna)
Designed1961–1962
ManufacturerSoviet Union, Russia as successor state and other countries under license and domestic versions
Unit cost$10,500 per missile (AT-3D, export cost 2019)[3]
Produced1963
Variants9M14M, 9M14P1, Malyutka-2, Malyutka-2F
Specifications
Mass10.9 kg (9M14M)
11.4 kg (9M14P1)
12.5 kg (Malyutka-2)
~12 kg (Malyutka-2F)
30.5 kg (Launcher and guidance)[4][5]
Length860 mm
1,005 mm combat ready (Malyutka-2)
Width393 mm (wingspan)
Diameter125 mm

Effective firing range500–3,000 m
Warhead weight2.6 kg (9M14M, 9M14P1)
3.5 kg (Malyutka-2, Malyutka-2F)

Maximum speed 115 m/s (410 km/h) (9M14M, 9M14P1)
130 m/s (470 km/h) (Malyutka-2, Malyutka-2F)[6]
Guidance
system
MCLOS, SACLOS (Later variants)

The 9M14 Malyutka (Russian: Малютка; "Little one", NATO reporting name: AT-3 Sagger) is a manual command to line of sight (MCLOS) wire-guided anti-tank guided missile (ATGM) system developed in the Soviet Union. It was the first man-portable anti-tank guided missile of the Soviet Union and is probably the most widely produced ATGM of all time—with Soviet production peaking at 25,000 missiles a year during the 1960s and 1970s. In addition, copies of the missile have been manufactured under various names by at least six countries.

Although they have been supplanted by more advanced anti-tank guided missiles, the Malyutka and its variants have seen widespread use in nearly every regional conflict since the 1960s and are still kept in large stockpiles and sometimes used to this day by non state actors such as Hezbollah.[7]

Development

[edit]

Development began in July 1961 with the government assigning the project to two design teams: Tula and Kolomna.[8] The requirements were:

  • Vehicle mountable and/or man portable
  • Range of 3,000 meters
  • Armor penetration of 200 millimetres at 60°
  • Maximum weight of 10 kilograms

The designs were based on the Western ATGMs of the 1950s, such as the French ENTAC and the Swiss Cobra. In the end, the prototype developed by the Kolomna Machine Design Bureau, who were also responsible for the 3M6 Shmel, was chosen. Initial tests were completed by 20 December 1962, and the missile was accepted for service on 16 September 1963.[9]

Description

[edit]

The missile can be fired from a portable suitcase launcher (9P111), ground vehicles (BMP-1, BRDM-2) and helicopters (Mi-2, Mi-8, Mi-24, Soko Gazelle). The missile takes about five minutes to deploy from its 9P111 fibreglass suitcase, which also serves as the launching platform.

The missile is guided to the target by means of a small joystick (9S415), which requires intensive training of the operator. The operator's adjustments are transmitted to the missile via a thin three-strand wire that trails behind the missile. The missile climbs into the air immediately after launch, which prevents it from hitting obstacles or the ground. In flight, the missile spins at 8.5 revolutions per second—it is initially spun by its booster, and the spin is maintained by the slight angle of the wings. The missile uses a small gyroscope to orient itself relative to the ground; as a result, the missile can take some time to bring back in line with the target, which gives it a minimum range of between 500 and 800 metres (550 and 870 yd). For targets under 1,000 m, the operator can guide the missile by eye; for targets beyond this range the operator uses the eight-power, 22.5-degree field of view, 9Sh16 periscope sight.

The engagement envelope is a 3 kilometres (1.9 mi) wide, 45-degree arc centered on the missile's launch axis. At ranges under 1.5 kilometres (0.93 mi), this arc reduces until, at the 500 metres (550 yd) range, the missile can only hit targets 50 metres (55 yd) either side of the center line. Accuracy falls off away from the launch axis—falling to approximately half its optimal accuracy at the extremes.

While early estimates of the missile hitting the target ranged from 60 to 90%, experience has shown that it can drop to an efficiency between 2 and 25% in case of less than optimal conditions and lack of skill from the operator. In fact, MCLOS requires considerable skill on the part of the operator, nevertheless, the weapon has always been quite popular with its operators and has enjoyed a constant updating effort both in the Soviet Union/Russia and in other countries.

The two most serious defects of the original weapon are its minimum range of between 500 and 800 metres (550 and 870 yd) (targets that are closer cannot be effectively engaged) and the amount of time it takes the slow moving missile to reach maximum range—around 30 seconds—giving the intended target time to take appropriate action, either by retreating behind an obstacle, laying down a smoke-screen, or by returning fire on the operator.[1]

Later versions of the missile addressed these problems by implementing the much easier to use SACLOSTooltip semi-automatic command to line of sight guidance system (though only available for ground vehicle and helicopter mounts), as well as upgrading the propulsion system to increase the average flight speed. The latest updates feature tandem-charge warheads or standoff probes to counteract explosive reactive armor, as well as thermal imaging systems. Even in these latest versions, the Malyutka is probably the most inexpensive ATGM in service today.

The turret of a BMP-1 with a 9M14M missile

History

[edit]

In Soviet service, the man-portable version was deployed as part of the anti-tank platoon of motor rifle battalions. Each platoon had two Malyutka sections, each with two teams. Each team had two launcher stations. One assistant gunner in each team served as an RPG-7 gunner. The RPG-7 was needed to cover the 500 meter deadzone created by the minimum range of the missile.

It is also an integrated part of the BMP-1, BMD-1, and BRDM-2 vehicles.

Yugoslav People's Army Malyutkas overlooking Dubrovnik during its siege, December 1991

Vietnam War

[edit]

On 23 April 1972, the recently organized Army of the Republic of Vietnam (ARVN) 20th Tank Regiment was attacked by the People's Army of Vietnam (PAVN) employing the Malyutka for the first time.[10] The 20th was the only South Vietnamese armor unit equipped with the M48 Patton tank. This first employment of the Malyutka destroyed one M48A3 and one M113 armored cavalry assault vehicle (ACAV), and a second ACAV was damaged.[11]: 210 

During this engagement with the weapon, the ARVN tankers appeared fascinated by the missile's slow and erratic flight,[11]: 210–11  but through experience, they soon deployed countermeasures against the weapon system. Upon launching by the enemy, ARVN crewmen would fire all their weapons towards the missile's firing position, which would make the gunner flinch and lose control of his missile. Although the gunner could take cover away from the launch site, the joystick control wire only allowed 15 meters of clearance. During the engagement, the ARVN eventually lost eight tanks to the 9M14M missile, but had developed tactics to defend themselves against it.[10]

During the Battle of Kontum (1972), 33 missiles were fired and 32 hit, destroying four tanks, two howitzers, six bunkers and seven other targets.[12]

During the Battle of Cửa Việt (1973), the PAVN put up fierce resistance to the attack, destroying 26 M48s and M113s with 9M14 missiles.[13]: 129–31 

Vietnam claims that throughout the war, PAVN gunner Dao Van Tien fired 134 missiles and 130 hit, destroying 23 tanks and APCs, 12 howitzers, 27 bunkers and 17 other targets.[14]

Yom Kippur War

[edit]
IDF soldiers inspect a captured 9M14 missile and launch unit.

The missile was employed by Arab armies during the initial phases of the Yom Kippur War.[15] Later in the war, the Israelis adopted new tactics and learned to neutralize the threat by employing large concentrations of artillery fire to either distract or kill the missile operators.[15] Other improvised methods used by the Israelis to defeat the Malyutkas involved firing in front of the tank to create dust, moving back and forth and firing at the source of the missile.[16] These Israeli tactics were later adopted by NATO forces to counter the threat posed by Warsaw Pact ATGMs.[16] In total, Malyutkas knocked out more than 800 Israeli tanks and other combat vehicles during the war.[17]

Libyan Civil War

[edit]

Rebels of the Free Libyan Army have been filmed using Malyutkas during the Libyan Civil War.[18][19]

Syrian Civil War

[edit]

Syrian rebels have also uploaded videos of themselves firing Malyutkas against government forces since late 2012.[20]

2023 Hamas-led attack on Israel

[edit]

On 7 October 2023, a Palestinian faction, Al-Quds Brigades uploaded a video of them on Telegram supposedly operating a Malyutka inside a building located adjacent with the Israeli border against an Israeli vehicle near Nahal Oz.[21] However, the article cited has mistaken the Malyutka used as an Iranian RAAD.[22] Similar rockets were fired in large numbers by Hezbollah on Israeli targets along the northern Israeli border during the war.

Models

[edit]
A Serbian Malyutka 2T5
A 9S415 control box for the Malyutka missile.
  • 9M14 Malyutka
    • 9M14 Malyutka (NATO reporting name AT-3 Sagger) wire-guided MCLOS, entered service in 1963.
    • 9M14P Malyutka-P (NATO reporting name AT-3C Sagger C) wire-guided SACLOS, entered service in 1969. Improved warhead (460 mm versus RHA)
      • 9M14P1 Improved warhead (520 mm versus RHA), and a stand off probe for improved capability against ERA.
      • 9M14MP1
      • 9M14MP2
    • 9M14M Malyutka-M (NATO reporting name AT-3B Sagger B) wire-guided MCLOS, entered service in 1973. Improved motor, reducing flight time to maximum range. Mass 11 kg. Range 3 km.
    • 9M14-2 Malyutka-2 (NATO reporting name AT-3D Sagger D) wire-guided SACLOS, entered service in 1992. Speed improved to 130 m/s. 3.5 kg HEAT warhead (800 mm penetration versus RHA). Weight 12.5 kg. Range 3 km.
      • 9M14-2M Malyutka-2M 4.2 kg tandem HEAT warhead for improved capability against ERA. Weight 13.5 kg. Speed 120 m/s.
      • 9M14-2P Malyutka-2P
      • 9M14-2F Malyutka-2F 3.0 kg thermobaric warhead. Intended for use against troops and soft vehicles.
      • 9M14P-2F
      • 9M14-2T[23] Serbian VTI Malyutka-2T SACLOS. 4.4 kg tandem HEAT warhead (1,000 mm penetration versus RHA), improved capability against ERA. Weight 13.7 kg. Speed 120 m/s.[24]
      • 2T5 Serbian VTI Malyutka-2T5 range 5 kilometers, guided missile via radio control. Speed 200 m/s.[25]
  • HJ-73 Hongjian Red Arrow-73 China
    • HJ-73 MCLOS entered service in 1979
    • HJ-73A SACLOS new guidance system as well as stronger primary warhead.
    • HJ-73B SACLOS stand off probe for improved capability against ERA
    • HJ-73C SACLOS tandem HEAT warhead to penetrate vehicles protected by ERA. Launcher equipped with thermals.[26]
  • RAAD Iran
    • RAAD 9M14M clone
    • RAAD-T tandem HEAT warhead
    • I-RAAD SACLOS
    • I-RAAD-T SACLOS tandem HEAT warhead
  • Susong-Po North Korean
  • Maliutka M2T Romania, joint ELMEC and Euromissile project, uses MILAN 2T tandem warhead capable of defeating ~900mm of RHA.[27]
  • Kun Wu 1 In the 1970s, the Taiwanese National Chung-Shan Institute of Science and Technology replicated and produced the 9M14 Malyutka as the Kun Wu.[28] The ROC had obtained the 9M14 Malyutkas from South Vietnam. Due to the dated design and low priority placed on anti-tank weapons by the armed forces it was not widely adopted.[29]


Production

[edit]

The Malyutka and modern derivatives are still produced in several versions in following countries:

  • North Korea – domestic version Susong-Po
  • Iran – domestic modernized version RAAD
  • Serbia – few domestic modernized versions with different types of warheads, range and guidance
  • Vietnam – CTVN-18, under license from Serbia version with improved SACLOS guidance
  • China – HJ-73 variants
  • Romania – Malyutka M2T
  • Egypt – licensed modernized version AHRAM with new warheads and a thermal sight

Operators

[edit]
Operators
  Current
  Former

Current

[edit]

Non-state

[edit]

Former

[edit]

See also

[edit]

Notes

[edit]
  1. ^ a b "Batailles de chars au Liban". Encyclopédie des armes : Les forces armées du monde (in French). Vol. I. Atlas. 1986. p. 16.
  2. ^ "Iraqi forces use AT-3 Sagger anti-tank guided missiles to destroy ISIS sniper nests north of Samarra". YouTube. Archived from the original on 8 December 2015. Retrieved 25 August 2015.
  3. ^ "Daily use of Russia's anti-tank missiles costs regime $1.2 mn daily". en.zamanalwsl.net.
  4. ^ "AT-3 SAGGER Anti-Tank Guided Missile Hongjian (Red Arrow)-73". Federation of American Scientists (FAS). Archived from the original on 3 March 2016. Retrieved 6 March 2016.
  5. ^ "AT-3 SAGGER Anti-Tank Guided Missile Hongjian (Red Arrow)-73". www.globalsecurity.org. Global Security. Archived from the original on 16 December 2018. Retrieved 15 December 2018.
  6. ^ "Btvt.narod.ru". Archived from the original on 6 April 2011. Retrieved 13 November 2014.
  7. ^ "Missiles and Rockets of Hezbollah". Missile Threat. Retrieved 22 March 2024.
  8. ^ McNab, Chris (2018). Sagger anti-tank missile vs M60 main battle tank : Yom Kippur War 1973. Oxford, UK. p. 7. ISBN 978-1-4728-2578-0. OCLC 1020793018.{{cite book}}: CS1 maint: location missing publisher (link)
  9. ^ Sewell, Stephen; Kinnear, James (2019). Soviet T-55 Main Battle Tank. Bloomsbury Publishing. p. 122. ISBN 9781472838537.
  10. ^ a b Dunstan
  11. ^ a b Starry, Donn (1978). Mounted Combat In Vietnam Vietnam Studies. Department of the Army. ISBN 978-1780392462.Public Domain This article incorporates text from this source, which is in the public domain.
  12. ^ "Kỳ tích của trắc thủ tên lửa B72".
  13. ^ Melson, Charles (1991). U.S. Marines In Vietnam: The War That Would Not End, 1971–1973. History and Museums Division, Headquarters, U.S. Marine Corps. ISBN 978-1482384055.Public Domain This article incorporates text from this source, which is in the public domain.
  14. ^ "Kỳ tích của trắc thủ tên lửa B72".
  15. ^ a b Tucker, Spencer, C, The Encyclopedia of Middle East Wars, ABC-CLIO, LLC, (Santa Barbara California, 2010), p. 158, ISBN 978-1-85109-947-4
  16. ^ a b Rabinovich, Abraham, The Yom Kippur War: The Epic Encounter That Transformed The Middle East, Random House, p.140
  17. ^ "PTUR suhoputnih voisk", G.N.Dmitriev, Arhiv-Press, 1997, pp.10(Russian:ПТУР Сухопутных войск / Под ред. Г. Н. Дмитриева. — Киев: Архив-Пресс, 1997. — С. 10. — (Архив 500+). — 700 экз.)
  18. ^ "Misratah - AL DAFNIA BATTLE 6". YouTube. Archived from the original on 21 December 2021. Retrieved 13 November 2014.
  19. ^ "صاروخ سعدون - YouTube". YouTube. Archived from the original on 7 July 2015. Retrieved 13 November 2014.
  20. ^ "YouTube". YouTube. Archived from the original on 1 December 2015. Retrieved 20 May 2015.
  21. ^ "The RAAD: An Iranian Anti-Tank Missile in Service of the Islamic Jihad". ISRAELDEFENSE. 22 October 2023. Retrieved 8 March 2024.
  22. ^ "Al-Quds Brigades Telegram". Telegram. 7 October 2023. Retrieved 8 March 2024.
  23. ^ "MTI develops longer-range Malyutka 2T - Jane's 360". www.janes.com. Archived from the original on 8 May 2018. Retrieved 7 May 2018.
  24. ^ "МАLYUTKA - 2 ANTI-TANK GUIDED MISSILE FAMILY - SDPR - Yugoimport". www.yugoimport.com. Archived from the original on 29 May 2017. Retrieved 8 June 2017.
  25. ^ "Partner 2023: Serbia's Military Technical Institute presents Malyutka Povr 2T5 Anti-Armored Guided Missile". Army Recognition. 23 September 2023. Retrieved 20 August 2024.
  26. ^ China has delivered HJ-73D anti-tank missile systems and assault rifles to South Sudan Archived 1 February 2018 at the Wayback Machine - Armyrecognition.com, 15 July 2014
  27. ^ ELMEC website Archived 26 July 2010 at the Wayback Machine
  28. ^ "Malyutka". Military Today. Retrieved 28 August 2019.
  29. ^ "Taiwan's Modest Defense Industries Program" (PDF). Central Intelligence Agency. Archived from the original (PDF) on 23 January 2017. Retrieved 28 August 2019.
  30. ^ a b Schroeder, Matt; King, Benjamin (2012). McDonald, Glenn; LeBrun, Emile; Berman, Eric G.; Krause, Keith (eds.). "Chapter 10. Surveying the Battlefield: Illicit Arms In Afghanistan, Iraq, and Somalia". Small Arms Survey 2012: Moving Targets (12). Cambridge University Press: 313–348. Retrieved 17 April 2024.
  31. ^ a b c d e f g h i International Institute for Strategic Studies (2024). "Chapter Six: Middle East and North Africa". The Military Balance. 124 (1): 328–395. doi:10.1080/04597222.2024.2298594. ISSN 0459-7222. Retrieved 17 April 2024.
  32. ^ a b c d e f g h International Institute for Strategic Studies (2024). "Chapter Eight: Sub-Saharan Africa". The Military Balance. 124 (1): 458–531. doi:10.1080/04597222.2024.2298597. ISSN 0459-7222. Retrieved 17 April 2024.
  33. ^ a b c d International Institute for Strategic Studies (2024). "Chapter Four: Russia and Eurasia". The Military Balance. 124 (1): 158–217. doi:10.1080/04597222.2024.2298592. ISSN 0459-7222. Retrieved 17 April 2024.
  34. ^ a b c d e f International Institute for Strategic Studies (2024). "Chapter Three: Europe". The Military Balance. 124 (1): 54–157. doi:10.1080/04597222.2024.2298591. ISSN 0459-7222. Retrieved 17 April 2024.
  35. ^ a b c d International Institute for Strategic Studies (2024). "Chapter Five: Asia". The Military Balance. 124 (1): 218–327. doi:10.1080/04597222.2024.2298593. ISSN 0459-7222. Retrieved 17 April 2024.
  36. ^ "FAS report on AT-3 SAGGER Anti-Tank Guided Missile". Archived from the original on 3 March 2016. Retrieved 6 March 2016.
  37. ^ a b c International Institute for Strategic Studies (2024). "Chapter Seven: Latin America and the Caribbean". The Military Balance. 124 (1): 396–457. doi:10.1080/04597222.2024.2298595. ISSN 0459-7222. Retrieved 17 April 2024.
  38. ^ Salvador López de la Torre (20 November 1984). "El fracaso militar del Polisario: Smul Niran, una catástrofe de la guerrilla". ABC (in Spanish): 32–33. Archived from the original on 7 July 2018. Retrieved 4 September 2018.
  39. ^ "Armed Actor Research Notes: Armed Groups' Holding of Guided Light Weapons. Number 31, June 2013" (PDF). Small Arms Survey. Archived from the original (PDF) on 13 March 2016. Retrieved 9 June 2018.
  40. ^ Fulan Nasrullah (9 August 2014). "9th And 10th August Nigeria SITREP (Boko Haram)". Archived from the original on 12 June 2018. Retrieved 12 June 2018.
  41. ^ Harel, Amos (21 February 2007). "IDF worried Hamas may have advanced anti-tank missiles". Haaretz. Retrieved 17 April 2024.
  42. ^ a b c d e f "Guided light weapons reportedly held by non-state armed groups 1998-2013" (PDF). Small Arms Survey. March 2013. Archived from the original (PDF) on 18 August 2014. Retrieved 9 June 2018.
  43. ^ a b International Institute for Strategic Studies, The Military Balance, 2017
  44. ^ @Mansourtalk (11 March 2018). "#Egyptian army seizures in..." (Tweet) – via Twitter.
  45. ^ Said Khatib (28 July 2016). "Palestinian militants from the Al-Quds Brigades, the armed wing of..." AFP/Getty Images.
  46. ^ "Iraq: Turning a blind eye: The arming of the Popular Mobilization Units" (PDF). Amnesty International. 5 January 2017. Archived (PDF) from the original on 13 March 2017. Retrieved 9 June 2018.
  47. ^ a b Janovský, Jakub (4 May 2018). "Seven Years of War — Documenting Syrian Rebel Use of Anti-Tank Guided Missiles". Bellingcat. Retrieved 17 April 2024.
  48. ^ Ioannis, Michaletos (10 August 2008). "Security and Defense in Albania". rieas.gr. Research Institute for European and American Studies. Retrieved 16 April 2024.
  49. ^ Jones & Ness 2010, p. 903.
  50. ^ a b c d e "Arms transfer database". Stockholm International Peace Research Institute. Retrieved 17 April 2024.
  51. ^ a b c Jones & Ness 2010, p. 906.
  52. ^ a b Hogg 1987, p. 978.
  53. ^ a b Jones & Ness 2010, p. 908.
  54. ^ a b c d Jones & Ness 2010, p. 909.
  55. ^ "Urosevac Kosovo Yugoslavia Kfor Polish Ukrainian Soldiers Redaktionelles Stockfoto – Stockbild | Shutterstock".
  56. ^ Jones & Ness 2010, p. 910.
  57. ^ a b c Jones & Ness 2010, p. 911.
  58. ^ Howard, Lt. Col. William L. (January–March 1986). Aubin, Capt. Stephen P. (ed.). "Technical Intelligence: The Critical Gap". Military Intelligence. 12 (1). U.S. Army Intelligence Center & School: 6. Retrieved 17 April 2024.
  59. ^ International Institute for Strategic Studies (2015). "Chapter Five: Russia and Eurasia". The Military Balance. 115 (1): 190. doi:10.1080/04597222.2015.996357. S2CID 219626710.
  60. ^ a b Jones & Ness 2010, p. 915.
  61. ^ a b Hogg 1987, p. 984.
  62. ^ Chant, Christopher (3 June 2014). A Compendium of Armaments and Military Hardware (Routledge Revivals). Routledge. pp. 1117–1118. ISBN 978-1-134-64675-3.
  63. ^ Jones & Ness 2010, p. 917.

References

[edit]
[edit]