Engineering:9K111 Fagot

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9K111 Fagot
9K111 Fagot in Polish service.jpg
9K111 Fagot in Polish service
TypeAnti-tank weapon
Place of originSoviet Union
Service history
In service1970–present
Used bySee Operators
WarsVietnam War
Soviet–Afghan War[1]
War in Afghanistan
Iran–Iraq War[2]
Western Sahara War[3]
2008 South Ossetia war[4]
War in Donbass
Iraq War
Syrian Civil War[5]
Iraqi Civil War (2014–2017)[5]
Yemeni Civil War (2015–present)
Saudi-led intervention in Yemen
Conflict in Najran, Jizan and Asir
Production history
DesignerTula Machinery Design Bureau (Tula KBP)
Designed1962
Produced1970
VariantsSee Models
Specifications
Mass12.5 kg (28 lb) (Missile weight)
22.5 kg (50 lb) (9P135 launching post)[6]
Length1,100 mm (3 ft 7 in)
Diameter120 mm (4.7 in)

Action400 mm versus RHA or 200 mm towards armour inclined at 60°
Rate of fire3 rds / min
Muzzle velocity80 m/s (180 mph; 290 km/h) at launch
186 m/s (420 mph; 670 km/h) in flight speed
Effective firing range70–2,500 m (230–8,200 ft)
WarheadHigh Explosive Anti-Tank (HEAT) warhead
Warhead weight1.7 kg (3.7 lb)

Guidance
system
SACLOS wire-guided missile

The 9K111 Fagot (Russian: Фагот; "bassoon") is a second-generation tube-launched SACLOS wire-guided anti-tank missile system of the Soviet Union for use from ground or vehicle mounts. The 9K111 Fagot missile system was developed by the Tula KBP Design Bureau for Instrument Building. "9M111" is the GRAU designation of the missile. Its NATO reporting name is AT-4 Spigot.

Development

The 9K111 Fagot was developed by the Tula Machinery Design Bureau (Tula KBP) and development began in 1962 with the aim of producing the next generation of SACLOS ATGMs for use in both the man portable role and the tank destroyer role. The 9K111 Fagot was developed alongside the 9M113 Konkurs; both missiles use similar technology, only differing in size, and can use the same launchers. The missile entered service in 1970.

History

The anti-tank platoon of a Soviet BTR equipped motor rifle battalion had two (sometimes three)[7] ATGM squads, each with two 9K111 Fagot teams. The team consisted of three men; the gunner carries the 9P135 launcher and tripod as a back pack, and the other two men each carry two launch tubes. The men also carry assault rifles, but do not carry an RPG, because unlike the earlier missiles there is only a small deadzone within which the missile cannot engage the target. Besides the four missiles carried by each team, each squad would normally have an extra eight missiles carried in their transport, usually a BTR. It can also be deployed from the BMP-1P, BMD-1P, BTR-D and UAZ-469.

North Korea was said to have acquired a number of the systems during the late 1980s until the 2000s from the USSR. These were subsequently reverse-engineered under the designation Bulsae-2.[8] It was advertised under designation AT-4MLB by North Korean proxy company GLOCOM, in brochure it was stated that it is controlled by laser beam guidance method.[9][10] Its use was first reported in 2014 in the ranks of the Izz ad-Din al-Qassam Brigades and the Al-Nasser Salah al-Deen Brigades.[11] It was reported in 2014 on July 2nd that Hamas used Bulsae-2 to destroy Merkava tank near Gaza Strip on Eid al Fıtr.[12][13]

Description

9K113 Konkurs missile system (launcher and missile) and a 9M111M Faktoriya missile in launch tube (standing)

The missile is stored and carried in a container/launch tube. It is fired from a 9P135 launcher post, a simple tripod. A 9S451 guidance box is fitted to the tripod with the missile sitting just above. The 9Sh119 sight is fitted to the left side (from the gunner's POV). The complete launcher system weighs 22.5 kg (50 lb). The gunner lays prone while firing. The system can engage moving targets travelling at less than 60 km/h (37 mph). The launcher post can traverse through 360 degrees horizontally, and +/− 20 degrees in elevation. The sight has a magnification of 10x and a 5 degree field of view. Up to three missiles a minute can be fired from a launcher post.

The system uses a gas generator to push the missile out of the launch tube, which exits from the rear of the launch tube in a manner similar to a recoilless rifle. The missile leaves the launch tube at 80 m/s (180 mph; 290 km/h), and is then quickly accelerated to 186 m/s (420 mph; 670 km/h) by its solid fuel motor. This initial high speed reduces the missile's deadzone, since it can be launched directly at the target, rather than in an upward arc.

The launcher tracks the position of an incandescent infrared bulb on the back of the missile relative to the target and transmits appropriate commands to the missile via a thin wire that trails behind the missile. The SACLOS guidance system has many benefits over MCLOS, with the accuracy of the system stated as 90% in some sources, though its performance is probably comparable to the TOW or the later SACLOS versions of the 9K11 Malyutka.

Models

Slovenian army soldiers launching a Fagot

Missile

  • 9M111 Fagot (NATO: AT-4 Spigot and AT-4A Spigot A) Entered service in 1970. Maximum range 2,000 m (6,600 ft; 1.2 mi), minimum 70 m (230 ft). Warhead 400 mm versus RHA or 200 mm towards armour inclined at 60°.[14]
  • 9M111-2 Fagot (NATO: AT-4B Spigot B) Slightly improved version.
  • 9M111M Faktoriya/Faktoria[15] (Trading post) or Fagot-M (NATO: AT-4C Spigot C) Improved motor, longer guidance wire. Maximum range 2,500 m (8,200 ft; 1.6 mi), minimum 75 m (246 ft). Improved single HEAT warhead; penetration 400 mm versus RHA or 230 mm towards armour inclined at 60°[14][16][17] (some publications claimed 9M111M to have tandem HEAT warhead).
[18] 9M111/AT-4A 9M111-2/AT-4B 9M111M/AT-4C
Launch tube weight 13 kg (29 lb) 13 kg (29 lb) 13.4 kg (30 lb)
Range 75–2,000 m 75–2,500 m 75–2,500 m
Warhead HEAT, 400 mm RHA penetration HEAT, 460 mm RHA penetration Tandem HEAT, 600 mm RHA penetration

Launcher

  • 9P135 22.5 kg (50 lb). Can only fire the 9M111 Fagot series.
  • 9P135M Can fire the 9M111 Fagot (NATO: AT-4 Spigot) series as well as the 9M113 Konkurs (NATO: AT-5 Spandrel) series missiles.
  • 9P135M1 Updated version of the 9P135.
  • 9P135M2 Updated version of the 9P135.
  • 9P135M3 Deployed in the early 1990s. Adds 13 kg (29 lb) TPVP thermal imaging night sight – range 2,500 m (8,200 ft; 1.6 mi) at night.
  • 9S451M2 A launcher with a night sight featuring an anti-dazzle system has been developed.

Operators

Map with 9K111 operators in blue and former operators in red

Current operators

  •  Afghanistan – 100
  •  Algeria – 2040 delivered between 1995-1996 for BMP-2 IFV.[19]
  •  Angola – 100
  •  Armenia[20]
  •  Azerbaijan
  •  Bosnia and Herzegovina – 52
  •  Belarus – 500
  •  Bulgaria – 222
  •  Croatia – 119
  •  Cuba – 100
  •  Czech Republic – 50
  •  Ethiopia – 50
  •  Finland – Several hundred 9P135M-1 launchers (withdrawn from service) and AT-4B as well as AT-5A missiles, known as PstOhj 82 and PstOhj 82M respectively.
  •  Georgia[21]
  •  Greece – 262 (acquired from former East German stocks)
  • Hamas - Known to use Bulsae-2s[22][23]
  •  Hungary – 50
  • Islamic State of Iraq and Levant – Unknown number captured[5]
  •  India – 100
  •  Iran
  •  Iraq – used by Iraqi Kurdistan
  •  Kazakhstan - 200 in 2010[24]
  •  Kuwait – 100
  •  Libya – 100
  •  Moldova – used on BMP-1
  •  Mozambique – 10
  •  North Korea – Unknown, reversed engineered under designation of Bulsae-2[25]
  •  Romania – acquired in the 1980s
  •  Russia – 1,000. 100 more systems delivered in August 2019 with a thermal camera.[26][27]
  • Flag of the Sahrawi Arab Democratic Republic.svg Polisario front[3]
  •  Serbia – 250
  •  Slovakia – 50
  • Free Syrian Army and other rebel groups – large numbers[15]
  •  Syria[28] – 100
  •  Ukraine – 800
  •  Yemen – 100
  •  Vietnam

Former operators

  • Template:TCH – all transferred to both successors after Dissolution of Czechoslovakia.
  •  East Germany – Passed on to Germany after the German Reunification.
  •  Germany – all retired soon after German Reunification.
  •  Poland – withdrawn and stored since early 2010s.[29]
  •  Slovenia – replaced by Spike missile.
  •  Soviet Union – passed to successor states.

See also

  • List of Russian weaponry

References

  1. "Aleksandr Antonovich Lyakhovskiy Working Paper pp" (PDF). Woodrow Wilson Center for Public Policy. https://www.wilsoncenter.org/sites/default/files/WP51_Web_Final.pdf. Retrieved 2017-07-15. 
  2. "Archived copy". https://books.google.se/books?id=rp5XCwAAQBAJ&pg=PT228&lpg=PT228&dq=Spigot+iran+iraq+war&source=bl&ots=XCSPdiNe67&sig=jBbUr8KwQL9538OPNnsZ5C6WxiY&hl=sv&sa=X&ved=2ahUKEwji8L2jgvnaAhXlDZoKHT1eDgEQ6AEwC3oECAAQbQ#v=onepage&q=Spigot%20iran%20iraq%20war&f=false. 
  3. 3.0 3.1 Ignacio Fuente Cobo; Fernando M. Mariño Menéndez (2006) (in es). El conflicto del Sahara occidental. Ministerio de Defensa de España & Universidad Carlos III de Madrid. p. 117. Fuente & Mariño. ISBN 84-9781-253-0. https://e-archivo.uc3m.es/bitstream/handle/10016/17377/04_conflictos_saharaoccidental_2006.pdf. 
  4. "Записки с кавказской войны". 2008-08-20. http://www.utro.ru/articles/2008/08/20/761041.shtml. Retrieved 2017-07-15. 
  5. 5.0 5.1 5.2 "Etat islamique: comment les djihadistes emploient les missiles antichars pour appuyer leurs offensives" (in fr). France-Soir. 4 May 2017. http://www.francesoir.fr/politique-monde/etat-islamique-comment-les-djihadistes-emploient-les-missiles-antichars-pour-appuyer-offensives-daech-ei-syrie-irak-armement-tactiques-strategie-djihad-chars-propagande-cham-mossoul-bataille. 
  6. "AT-5 SPANDREL Anti-Tank Guided Missile". Federation of American Scientists (FAS). https://fas.org/man/dod-101/sys/land/row/at5spandrel.htm. 
  7. Owen, Garry. "MRB Anti-Tank Platoon (APC)". Red Guards Index. http://www.1stusvcav.com/red_guards/TOE_MRB_APC_AT_platoon.html. Retrieved 16 May 2014. 
  8. "NORTH KOREA COUNTRY HANDBOOK : MARINE CORPS INTELLIGENCE ACTIVITY" (PDF). https://fas.org/nuke/guide/dprk/nkor.pdf. Retrieved 2017-07-15. 
  9. https://books.google.co.jp/books?id=mgkqDwAAQBAJ&pg=PA20&lpg=PA20&dq=target+market+korea&source=bl&ots=HbXLq7_BiQ&sig=ACfU3U072ANhuiWekDdw1EUUr2ThHxNjNA&hl=ja&sa=X&ved=2ahUKEwj1scWHva7qAhWByIsBHUaxBngQ6AEwDHoECAIQAQ#v=onepage&q=target%20market%20korea&f=false
  10. https://www.armscontrolwonk.com/archive/1203749/glocom-is-at-it-again/
  11. "Archived copy". http://www.armscontrolwonk.com/archive/207370/oryx-blog-on-dprk-arms-exports/. 
  12. https://masralarabia.net/gaza/322299-بهذه-الصواريخ-دمر-القسام-الميركافا
  13. https://web.archive.org/web/20140803005922/http://www.islamicinvitationturkey.com/2014/07/31/exc-qassam-used-phoenix-system-to-destroy-merkava-tanks-on-the-edge-of-the-gaza-strip-on-eid-al-fitr/
  14. 14.0 14.1 Maksim Sayenko. "Bronya »krylyatoy pyekhoty«" (Armour of "Winged infantry"). Tekhnika i Vooruzhenie no.02/2007, p. 39 (Russian)
  15. 15.0 15.1 Jeremy Binnie, Neil Gibson (8 April 2016). "US arms shipment to Syrian rebels detailed". Jane's Defence Weekly (IHS). http://www.janes.com/article/59374/us-arms-shipment-to-syrian-rebels-detailed. Retrieved 3 December 2016. 
  16. "ПТРК 9К111 "ФАГОТ"". http://btvt.narod.ru/4/fagot.htm. Retrieved 2017-07-15. 
  17. [1]
  18. 9K111 Fagot - Weaponsystems.net
  19. "Trade Registers". http://armstrade.sipri.org/armstrade/page/trade_register.php. Retrieved 2017-07-15. 
  20. [2]
  21. "Armament of the Georgian Army". Georgian Army. Archived from the original on 2012-03-09. https://web.archive.org/web/20120309192408/http://geo-army.ge/index.php?option=com_content&view=article&id=9&Itemid=9&lang=en. Retrieved 2007-06-25. 
  22. Jeffrey Lewis. "Oryx Blog on DPRK Arms Exports". http://lewis.armscontrolwonk.com/archive/7370/oryx-blog-on-dprk-arms-exports_content&view=article&id=9&Itemid=9&lang=en. Retrieved 2014-12-29. 
  23. "Archived copy". https://www.popularmechanics.com/military/weapons/a19663/north-korea-anti-tank-missile/. 
  24. Small Arms Survey (2012). "Blue Skies and Dark Clouds: Kazakhstan and Small Arms". Small Arms Survey 2012: Moving Targets. Cambridge University Press. p. 131. ISBN 978-0-521-19714-4. http://www.smallarmssurvey.org/fileadmin/docs/A-Yearbook/2012/eng/Small-Arms-Survey-2012-Chapter-04-EN.pdf. Retrieved 2018-08-30. 
  25. "Archived copy". https://armyrecognition.com/weapons_defence_industry_military_technology_uk/north_korea_has_upgraded_old_anti-tank_missile_with_laser_guided_system_called_bulsae-3.html. 
  26. https://tass.com/defense/1073578
  27. http://www.armstrade.org/includes/periodics/news/2019/0815/101553900/detail.shtml
  28. "Bataille de Palmyre: les djihadistes de Daech infligent un revers cinglant à l'armée de Bachar al-Assad". France-Soir. 13 December 2016. http://www.francesoir.fr/politique-monde/bataille-de-palmyre-les-djihadistes-de-daech-infligent-un-revers-cinglant-l-armee-de-bachar-al-assad-etat-islamique-victoire-symbole-cit%C3%A9-antique-monument-Russie-Unesco-terrorisme. 
  29. "Archived copy". http://polska-zbrojna.pl/home/articleshow/21502?t=Pirat-coraz-blizej. 

Sources

  • Hull, A.W., Markov, D.R., Zaloga, S.J. (1999). Soviet/Russian Armor and Artillery Design Practices 1945 to Present. Darlington Productions. ISBN:1-892848-01-5.

External links