Английская Википедия:9K38 Igla

Материал из Онлайн справочника
Перейти к навигацииПерейти к поиску

Шаблон:Short description Шаблон:About Шаблон:Use dmy dates Шаблон:Infobox weapon

The 9K38 Igla (Шаблон:Lang-ru, "needle", NATO reporting name SA-18 Grouse) is a Russian/Soviet man-portable infrared homing surface-to-air missile (SAM) system. A simplified, earlier version is known as the 9K310 Igla-1 (NATO: SA-16 Gimlet), and the latest variant is the 9K338 Igla-S (SA-24 Grinch).

The Igla-1 entered service in 1981, the Igla in 1983, and the Igla-S in 2004.Шаблон:Cn The Igla has been supplemented by the 9K333 Verba since 2014.[1]

History

Файл:Игла - Расчеты ПЗРК Северного флота в ходе практических стрельб поразили все воздушные мишени.ogv
Russian soldiers demonstrate use of Igla MANPADS.

The development of the Igla short-range man-portable air defense system (MANPADS) began in the Kolomna OKB in 1972. Contrary to what is commonly reported, the Igla is not an improved version of the earlier Strela family (Strela-2 and Strela-3), but an all-new project.Шаблон:Citation needed The main goals were to create a missile with better resistance to countermeasures and wider engagement envelope than the earlier Strela series MANPADS systems.

Technical difficulties in the development quickly made it obvious that the development would take far longer than anticipated, however, and in 1978 the program split in two: while the development of the full-capability Igla would continue, a simplified version (Igla-1) with a simpler IR seeker based on that of the earlier Strela-3 would be developed to enter service earlier than the full-capability version could be finished.

Igla-1

Файл:SA-16 and SA-18 missiles and launchers.jpg
9K38 Igla (SA-18) missile and launcher top and 9K310 Igla-1 (SA-16) missile and launcher below.

The 9K310 Igla-1 system and its 9M313 missile were accepted into service in the Soviet Army on 11 March 1981. The main differences from the Strela-3 included an optional Identification Friend or Foe system to prevent firing on friendly aircraft, an automatic lead and super elevation to simplify shooting and reduce minimum firing range, a slightly larger rocket, reduced drag and better guidance system extend maximum range and improve performance against fast and maneuverable targets, an improved lethality on target achieved by a combination of delayed impact fuzing, terminal maneuver to hit the fuselage rather than jet nozzle, an additional charge to set off the remaining rocket fuel (if any) on impact, an improved resistance to infrared countermeasures (both decoy flares and ALQ-144 series jamming emitters), and slightly improved seeker sensitivity.

The seeker has two detectors – a cooled MWIR InSb detector for detection of the target and uncooled PbS SWIR detector for detection of IR decoys (flares). The built-in logic determines whether the detected object is a target or a decoy. The latest version (Igla-S) is reported to have additional detectors around the main seeker to provide further resistance against pulsed IRCM devices commonly used on helicopters.

The 9M313 missile features a drag-reducing aerospike mounted on a tripod (Igla's 9M39 missile has an aerospike attached directly to the seeker dome, resembling a needle, which is perhaps not coincidentally the translation of its codename, Шаблон:Lang-ru), which reduces a shock wave, thus providing less dome heating and greater range. The name Igla is derived from these devices.

Like many other MANPADS, Igla-1 and Igla feature so-called rolling airframe missiles. These missiles roll in flight (900–1,200 rpm) so steering the missile requires just a single pair of control surfaces, unlike roll-stabilized missiles, which require separate control surfaces for pitch and yaw. Both 9M313 and 9M39 missiles contain a gas generator, which drives a small gas turbine to provide electrical power, and the pistons, which move the canards used to steer the missile in a bang-bang mode. In addition to that, two exhaust tubes of the gas generator are placed perpendicular to the steering canards to provide maneuverability immediately after launch when the missile airspeed is too low for canards to be effective. Later versions of Igla are reported to use proportional control to drive the canards, which enables greater precision and less oscillation of the flight path.

According to the manufacturer, South African tests have shown the Igla's superiority over the contemporary (1982 service entry) but smaller and lighter American FIM-92A Stinger missile. According to Kolomna OKB, the Igla-1 has a Pk (probability of kill) of 0.30 to 0.48 against unprotected targets which is reduced to 0.24 in the presence of decoy flares and jamming.[2] In another report, the manufacturer claimed a Pk of 0.59 against an approaching and 0.44 against receding F-4 Phantom II fighter not employing infrared countermeasures or evasive maneuvers.Шаблон:Citation needed

Igla

Файл:9K38 IGLA (4968730444).jpg
Brazilian soldier with 9K38 Igla (SA-18).

The full-capability 9K38 Igla with its 9M39 missile was finally accepted into service in the Soviet Army in 1983. The main improvements over the Igla-1 included much improved resistance against flares and jamming, a more sensitive seeker, expanding forward-hemisphere engagement capability to include straight-approaching fighters (all-aspect capability) under favourable circumstances, a slightly longer range, a higher-impulse, shorter-burning rocket with higher peak velocity (but approximately same time of flight to maximum range).

The naval variant of 9K38 Igla has the NATO reporting name SA-N-10 Grouse.

The Igla–1M missile consists of a Ground Power Supply Source (GPSS), Launching Tube, Launching Mechanism & Missile (9M313–1).

There is also a two-barrel 9K38 missile launcher called Dzhigit.[3][4]

9K338 Igla-S (SA-24 Grinch)

The newest variant, which is a substantially improved variant with longer range, more sensitive seeker, improved resistance to latest countermeasures, and a heavier warhead. Manufacturer reports hit probability of 0.8–0.9.[5] State tests were completed in December 2001 and the system entered service in 2002. Series produced by the Degtyarev plant since 1 December 2004.[6]

Replacement

Since 2014 the Igla is being replaced in Russian service by the new 9K333 Verba (Willow) MANPADS.[1] The Verba's primary feature is its multispectral optical seeker, using three sensors as opposed to the Igla-S' two. Cross-checking sensors against one another better discriminates between relevant targets and decoys, and decreases the chance of disruption from countermeasures, including lasers that attempt to blind missiles.[7]

Operational history

Шаблон:Multiple image

India

Operation Trishul Shakti (1992)

Шаблон:Main From 28 July 1992 to 2 August 1992 the Indian Army mounted Operation Trishul Shakti to protect the Bahadur post in Chulung when it was attacked by a large Pakistani assault team. On 1 August 1992, Pakistani helicopters were attacked by an Indian Igla missile and Brig. Masood Navid Anwari (PA 10117) then Force Commander Northern Areas and other accompanying troops were killed. This led to a loss of momentum on the Pakistani side and the assault stalled.[8]

Iraq

Desert Storm (1991)

Шаблон:Main The first combat use of the Igla-1E was during the Gulf War Operation GRANBY. On 17 January 1991, a Panavia Tornado bomber of the Royal Air Force was shot down by an Iraqi MANPADS that may have been an Igla-1E (or Strela-3) after an unsuccessful bombing mission. The crew, Flt Lts J G Peters and A J Nichol, were both captured and held as prisoners of war (POWs) until the cessation of hostilities.[9][10]

In addition, an Igla-1E shot down an American F-16 on 27 February 1991. The pilot was captured.[11]

It is uncertain if an AC-130H lost was hit by a 'Strela' missile or a more recent Igla since Iraq had SA-7, SA-14 and SA-16 missiles at the time, according to the SIPRI database.

From 2003

Шаблон:Main

Among the Coalition force losses to MANPADS during the Iraq War some were reported as losses to Igla-1E (SA-16) missiles.

Rwanda

Igla-1E missiles were used in the 1994 shoot down of a Rwandan government flight, killing the presidents of Rwanda and Burundi and sparking the Rwandan genocide.[12]

Cenepa War

During the Cenepa War between Ecuador and Peru, both the Ecuadorian Army and the Peruvian Army (which had 90 functioning firing units) utilized Igla-1E missiles against aircraft and helicopters.

A Peruvian Air Force Mi-25 attack helicopter was shot down on 7 February 1995 around Base del Sur, killing the three crewmen, while an Ecuadorian Air Force A-37 Dragonfly was hit but managed to land on 11 February. Hits on additional Ecuadorian aircraft were claimed but could not be confirmed.[13]

Bosnia

On 16 April 1994 during the Siege of Goražde, while attempting to bomb a Serbian tank an RAF Sea Harrier was shot down by an Igla fired by the Army of Republika Srpska. The pilot ejected and was rescued by the Army of the Republic of Bosnia and Herzegovina.[14][15]

During Operation Deliberate Force, on 30 August 1995; a French Mirage 2000D was shot down over Pale by an Igla fired by air defence units of the Army of Republika Srpska.[16] The pilots, Lt. Jose-Manuel Souvignet (pilot) and Capt. Frederic Chiffot (back-seater), were captured and freed in December 1995.[17]

Yugoslavia

During Operation Allied Force, two A-10 Thunderbolt II aircraft were hit by Igla-1E missiles. On 2 May 1999, one A-10 was hit over Kosovo and was forced to make an emergency landing at Skopje Airport in north Macedonia due to damage. The following day, an A-10 was hit beneath the cockpit, however serious damage was avoided due to the warhead failing to detonate.[18]

Chechnya

Шаблон:See also The 2002 Khankala Mi-26 crash occurred on 19 August 2002 when a team of Chechen separatists brought down a Russian Mil Mi-26 helicopter in a minefield with an Igla; this resulted in the death of 127 Russian soldiers in the greatest loss of life in the history of helicopter aviation. It was also the most deadly aviation disaster ever suffered by the Russian armed forces,[19] as well as their worst loss of life in a single day since 1999.[20]

Egypt

On 26 January 2014, the militant group Ansar Bait al-Maqdis shot down an Egyptian Mi-17 over the northern Sinai peninsula using a suspected Igla-1E or Igla. How the group came to obtain the weapon is currently unknown.[21]

Libya

During the 2011 military intervention in Libya, Libyan loyalist forces engaged coalition aircraft with a certain number of Igla-S. Three Igla-S were fired against British Apache attack helicopters of the 656 Squadron Army Air Corps operating from the amphibious assault ship Шаблон:HMS. According to the squadron commander at the time, they were all dodged by insistent use of decoy flares by the gunships who in exchange successfully engaged the shooters.[22][23]

On 23 March 2015, a Libya Dawn-operated MiG-23UB was shot down with an Igla-S (reportedly a truck-mounted Strelets variant) while bombing Al Watiya airbase (near Zintan), controlled by forces from the internationally recognized House of Representatives. Both pilots were killed.[24][25]

Plot against Air Force One

On 12 August 2003, as a result of a sting operation arranged as a result of cooperation between the American, British and Russian intelligence agencies, Hemant Lakhani, a British national, was intercepted attempting to bring what he had thought was an older-generation Igla into the United States. He is said to have intended the missile to be used in an attack on Air Force One, the American presidential plane, or on a commercial US airliner, and is understood to have planned to buy 50 more of these weapons.

After the Federalnaya Sluzhba Bezopasnosti (FSB) detected the dealer in Russia, he was approached by US undercover agents posing as terrorists wanting to shoot down a commercial plane. He was then provided with an inert Igla by undercover Russian agents, and arrested in Newark, New Jersey, when making the delivery to the undercover US agent. An Indian citizen residing in Malaysia, Moinuddeen Ahmed Hameed and an American Yehuda Abraham who allegedly provided money to buy the missile were also arrested.[26] Yehuda Abraham is president and CEO of Ambuy Gem Corp.[27][28] Lakhani was convicted by jury in April 2005, and was sentenced to 47 years in prison.[29]

Syria

Шаблон:See also Video has surfaced showing rebels using an Igla-1E on a Syrian government helicopter. Such weapons were believed to have been looted from a Syrian army base in Aleppo in February 2013. In 2014, a member of the rebel group Harakat Hazm was filmed aiming an Igla-1E into the air on the same day that the group was filmed operating BGM-71 TOW missiles.[30] Whether these weapons were raided from regime stockpiles or supplied via overseas is unknown.Шаблон:Citation needed However, Russia reportly denied Syrian demand for Iglas in 2005 and 2007, fearing these weapons to be used by Hezbollah.[31]

Ukraine

Шаблон:Main On 14 June 2014, Russian separatist forces near Luhansk International Airport in Eastern Ukraine shot down an IL-76 of the Ukrainian Airforce probably using an Igla MANPADS, killing all 49 Ukrainian service personnel on board.[32]

The Igla saw extensive use by Ukrainian forces during the early stages of the 2022 Russian invasion of Ukraine.

On March 22, 2022, the Ukrainian 80th Air Assault Brigade claimed to have shot down a Russian cruise missile over the Mykolaiv Oblast with an Igla system.[33]

On April 17, 2022, Ukrainian forces reported shooting down a Ka-52 attack helicopter with an Igla MANPADS.[34]

On April 21, 2022, Ukrainian forces located in the Kharkiv Oblast reportedly shot down a Russian Su-34 aircraft with an Igla system.[35]

On May 22, 2022, Ukrainian paratroopers from Lviv downed a Russian Su-25 attack aircraft with an Igla system.[36]

On June 18, 2022, Ukraine's 72nd Separate Mechanized Brigade downed a Russian Sukhoi Su-25 attack aircraft with an Igla system.[37]

On October 10, 2022, Ukrainian soldiers claimed to have shot down a Russian cruise missile with a 9K38 Igla. [38]

Nagorno Karabakh

Шаблон:Main On 12 November 2014, Azerbaijani forces shot down an Armenian Army Mi-24 of a formation of two which were flying near the Azerbaijani border. All three on board died when the helicopter was hit by an Igla-S MANPADS fired by Azerbaijani soldiers while flying at low altitude, and crashed.[39][40][41]

Turkey

On 13 May 2016, PKK militants shot down a Turkish Army Bell AH-1W SuperCobra attack helicopter using 9K38 Igla (SA-18 Grouse) version of this missile system. The missile severed the tail section from the rest of the helicopter, causing it to fragment in midair and crash, killing the two pilots on board. The Turkish government first claimed that it fell due to technical failure before it became clear that it was shot down. The PKK later released video footage of the rocket being fired and striking the helicopter.[42]

Variants

Шаблон:Unreferenced section

Файл:9K338 Igla-S (NATO-Code - SA-24 Grinch).jpg
An Igla-S missile with its launch tube.
  • Igla-1 is a simplified early production version. It is known in the West as SA-16 Gimlet. It had a maximum range of 5000 m and could reach targets at a maximum altitude of 2500 m.
  • Igla-1E is an export version. It has been exported to a number of countries.
  • Igla (SA-18 Grouse) is a standard production version. It was adopted in 1983. Currently it is in service with more than 30 countries, including Russia.
  • Igla-D, version developed specially for the Soviet airborne troops. Its launch tube can be disassembled and carried in two separate sections in order to reduce dimensions.
  • Igla-M is a naval version for the naval boats. Its Western designation is SA-N-10 Grouse.
  • Igla-V is an air-to-air version, used on helicopters.
  • Igla-N is a version with much larger and more powerful warhead.
  •  Igla-S, sometimes referred as Igla-Super. It is an improved variant in the Igla, which entered service with Russian Army in 2004. It is known in the West as SA-24 Grinch.

Comparison chart to other MANPADS

9K34 Strela-3 /SA-14 9K38 Igla /SA-18 9K310 Igla-1 /SA-16 9K338 Igla-S /SA-24 FIM-92C Stinger Grom
[43] 		Starstreak
[44][45]
Service entry 1974 1983 1981 2004 1987 1995 1997
Weight,
full system,
ready to shoot
kg (lb) 		Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert
Weight, missile
kg (lb) 		Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert[44]
Weight, warhead
kg (lb)
g (oz) 		Шаблон:Convert,
Шаблон:Convert HMX 		Шаблон:Convert,
Шаблон:Convert HMX 		Шаблон:Convert,
Шаблон:Convert HMX

Шаблон:Convert,
Шаблон:Convert HMX

Шаблон:Convert
HTA-3[46]

Шаблон:Convert

3x Шаблон:Convert tungsten alloy darts,
3x Шаблон:Convert PBX-98
Warhead type Directed-energy
blast fragmentation 		Directed-energy
blast fragmentation 		Directed-energy
blast fragmentation 		Directed-energy
blast fragmentation 		Blast fragmentation Blast fragmentation Blast fragmentation
Fuze type Impact and grazing fuze. Delayed impact,
magnetic and grazing. 		Delayed impact,
magnetic and grazing. 		Delayed impact,
magnetic and grazing. 		Delayed impact. Impact. Delayed impact, armour-piercing.
Flight speed, average / peak
m/s (mph) 		Шаблон:Convert
sustained 		Шаблон:Convert
/ Шаблон:Convert 		Шаблон:Nowrap
(in + temperature) 		? Шаблон:Convert
/ Шаблон:Convert 		Шаблон:Convert
/ Шаблон:Convert 		Шаблон:Convert
/ Шаблон:Convert[47]
Maximum range
m (ft) 		Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert+
Maximum target speed, receding
m/s (mph) 		Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert ? Шаблон:Convert ?
Maximum target speed, approaching
m/s (mph) 		Шаблон:Convert Шаблон:Convert Шаблон:Convert Шаблон:Convert ? Шаблон:Convert ?
Seeker head type Nitrogen-cooled,
lead sulfide (PbS) 		Nitrogen-cooled,
Indium antimonide (InSb)
and
uncooled lead sulfide (PbS) 		Nitrogen-cooled,
Indium antimonide (InSb) 		? Argon-cooled,
Indium antimonide (InSb)
and UV flare rejection channel 		? Laser beam rider (LBR)
Seeker scanning FM-modulated FM-modulated FM-modulated FM-modulated Rosette-scanning FM-modulated Low intensity modulated-laser-homing darts
Seeker notes Aerospike to reduce
supersonic wave drag 		Tripod-mounted nosecone
to reduce supersonic wave drag 		Low laser beam energy levels ensuring no warning to target

Operators

Файл:9K38 Igla-Slovenia.jpg
In Slovenian service showing storage crates.

Igla and Igla-1 SAMs have been exported from the former Soviet Union to over 30 countries, including Angola, Bosnia and Herzegovina, Botswana, Brazil, Bulgaria, Croatia, Cuba, East Germany, Egypt, Hamas, Ecuador, Eritrea, Finland, Hungary, India, Iran, Iraq, Malaysia, Mexico, Morocco, North Korea, North Macedonia, Peru, Poland, Serbia, Singapore, Slovakia, Slovenia, South Korea, Sri Lanka, Thailand, Turkey, Ukraine, United Arab Emirates, Vietnam and Zimbabwe. Several guerrilla and terrorist organizations are also known to have Iglas. Alleged Operatives of the Liberation Tigers of Tamil Eelam a terrorist organization fighting for a homeland for Tamils in the island of Sri Lanka were arrested in August 2006 by undercover agents of the FBI posing as arms dealers, while trying to purchase the Igla. In 2003 the unit cost was approximately US$60,000–80,000.

Large numbers have been sold to the government of Venezuela, raising United States concerns that they may end up in the hands of Colombian guerrillas.[48] Photo evidence of the truck mounted twin version in service with the Libyan Army emerged in March 2011. 482 Igla-S missiles were imported from Russia in 2004. Some were unaccounted at the end of the civil war and they could have ended up in Iranian inventory.[49][50][51] Israeli officials say Igla-S systems were looted from Libyan warehouses in 2011 and transported by Iranians through Sudan and turned over to militants in Gaza and Lebanon.[52]

Igla-1 (SA-16)

Файл:SA-16 operators.png
Map with SA-16 operators in blue and former operators in red

Current operators

Файл:9k38 Igla voilkh stya'Mercedes-Benz Unimog angsxhtoilya Vohskteinggesxhtieur Mexirhkyoth.jpg
Mexican Marines manning a Russian 9K38 Igla surface-to-air missile (SAM) dual missile launch platform mounted on a Mercedes-Benz Unimog truck of the Mexican Navy in 2009

Шаблон:Div col

Шаблон:Div col end

Former operators

Evaluation-only operators

  • Шаблон:POL: It was planned to implement the production of the 9K310 Igla-1E at the Mesko plant. Due to the political changes and the lack of transfer of some documentation by the Soviet side, it was decided to develop its own systems of a portable anti-aircraft missile launcher called Grom and later Piorun.Шаблон:Sfn

Igla (SA-18)

Файл:SA-18 operators.png
Map with SA-18 operators in blue and former operators in red

Current operators

Шаблон:Div col

Шаблон:Div col end

Former operators

Evaluation-only operators

Igla-S (SA-24)

Файл:SA-24 operators.png
Map with SA-24 operators in blue

Current operators

Potential operators

Шаблон:Flag: Russia offered the Igla-S to the Argentine Military as part of a bigger deal to modernize Argentina Air Defence.[85]

Failed bids

Other uses

See also

References

Шаблон:Reflist

External links

Шаблон:Commons category

Шаблон:Russian and Soviet missiles

Партнерские ресурсы
Криптовалюты
Магазины
Хостинг
Разное

  1. 1,0 1,1 New Russian Verba MANPADS will replace Igla-S Шаблон:Webarchive - Armyrecognition.com, 15 September 2014
  2. Шаблон:Cite web
  3. DJIGIT (SA-18). warfare.be
  4. Шаблон:Cite web
  5. Шаблон:Cite web
  6. Ошибка цитирования Неверный тег <ref>; для сносок 9К338 Игла-С - SA-24 GRINCH не указан текст
  7. New-generation man-portable air defence system Verba revealed to public at Army 2015 exhibition Шаблон:Webarchive – Armyrecognition.com, 19 June 2015
  8. Шаблон:Cite book
  9. Lawrence, Richard R.. Mammoth Book Of How It Happened: Battles, Constable & Robinson Ltd, 2002.
  10. Statement on the Loss of RAF Tornado Aircraft in Combat During the Conduct of Air Operations against Iraq Шаблон:Webarchive. Raf.mod.uk. Retrieved on 6 January 2017.
  11. "Aircraft Database on F-16.net" Шаблон:Webarchive Aircraft profile records for Tail 84-1390. Retrieved: 11 May 2011.
  12. The Continuing Threat of Libyan Missiles Шаблон:Webarchive. Stratfor. Retrieved on 6 January 2017.
  13. Шаблон:Cite web
  14. Шаблон:Cite web
  15. Шаблон:Cite news
  16. Fulghum, David A. (14 January 2010) Anti-Aircraft Missiles Stolen by Guerrillas in Peru. Aviation Week
  17. Шаблон:Cite news
  18. Шаблон:Cite book
  19. Chechen gets life for killing 127 Russian soldiers, The Guardian, 30 April 2004
  20. A calamity, yet no end of war in sight Шаблон:Webarchive, The Economist, 22 August 2002
  21. Шаблон:Cite web
  22. BOOK REVIEW – Apache Over Libya | Naval Historical Foundation Шаблон:Webarchive. Navyhistory.org (2 September 2016). Retrieved on 2017-01-06.
  23. Army Apache crew members honoured for actions over Libya – Announcements Шаблон:Webarchive. GOV.UK (26 March 2012). Retrieved on 2017-01-06.
  24. Binnie, Jeremy (22 March 2015) Libya Dawn aircraft crashes during raid on Zintan. London, IHS Jane's Defence Weekly
  25. Michael Horowitz on Twitter: "Picture: Igla manpad reportedly used to shoot down a #Libya Dawn Airplane that carried out an airstrike over Zintan http://t.co/65DONM1RRq" Шаблон:Webarchive. Twitter.com. Retrieved on 6 January 2017.
  26. Шаблон:Cite web
  27. Шаблон:Cite web
  28. Шаблон:Cite web
  29. Шаблон:Cite web
  30. Шаблон:Cite web
  31. Шаблон:Cite book
  32. Шаблон:Cite news
  33. Шаблон:Citation
  34. Шаблон:Citation
  35. Шаблон:Citation
  36. Шаблон:Cite web
  37. Шаблон:Cite news
  38. Шаблон:Cite news
  39. Шаблон:Cite news
  40. Шаблон:Cite web
  41. Шаблон:Cite web
  42. Cunningham, Erin. (14 May 2016) Kurdish militants reportedly shoot down Turkish security forces helicopter Шаблон:Webarchive. The Washington Post. Retrieved on 2017-01-06.
  43. Kwasek, Tomasz (18 August 2011) Przeciwlotniczy zestaw rakietowy PPZR Grom i Piorun. dziennikzbrojny.pl
  44. 44,0 44,1 StarStreak High Velocity Missile (HVM) Шаблон:Webarchive. thalesgroup.com
  45. STARSTREAK Armoured Vehicle System (AVS) Шаблон:Webarchive. thalesgroup.com
  46. Шаблон:Cite web
  47. – Close Air Defence Missiles . Defencejournal.com. Retrieved on 6 January 2017.
  48. Шаблон:Cite news
  49. SA-24 Grinch 9K338 Igla-s portable air defense missile system technical data sheet specifications UK Шаблон:Webarchive. Army Recognition (23 March 2011). Retrieved on 2017-01-06.
  50. Шаблон:Cite news
  51. The deadly dilemma of Libya's missing weapons Шаблон:Webarchive. Christian Science Monitor (7 September 2011). Retrieved on 2017-01-06.
  52. Шаблон:Cite news
  53. 53,0 53,1 53,2 Шаблон:Cite web
  54. 54,0 54,1 54,2 54,3 54,4 54,5 54,6 54,7 54,8 Шаблон:Cite book
  55. Шаблон:Cite web
  56. Шаблон:Cite web
  57. Шаблон:Cite book
  58. Шаблон:Cite web
  59. Шаблон:Cite web
  60. 60,00 60,01 60,02 60,03 60,04 60,05 60,06 60,07 60,08 60,09 60,10 60,11 60,12 60,13 60,14 60,15 60,16 60,17 60,18 60,19 60,20 60,21 60,22 60,23 60,24 60,25 60,26 60,27 Шаблон:Cite book
  61. Шаблон:Cite news
  62. 62,0 62,1 Шаблон:Cite book
  63. Шаблон:Cite web
  64. Military Balance 2017
  65. Шаблон:Cite web
  66. Шаблон:Cite web
  67. Шаблон:Cite web
  68. Шаблон:Cite book
  69. Шаблон:Cite web
  70. Шаблон:Cite web
  71. Stockholm International Peace Research Institute – Trade Register Шаблон:Webarchive, entries for Armenia 2013. Retrieved 16 May 2015.
  72. Шаблон:Cite web
  73. APA – List of weapons and military vehicles sold by Russia to Azerbaijan last year publicized Шаблон:Webarchive. En.apa.az (19 June 2013). Retrieved on 2017-01-06.
  74. Шаблон:Cite web
  75. Шаблон:Cite web
  76. Шаблон:Cite web
  77. Шаблон:Cite web
  78. Шаблон:Cite news
  79. Шаблон:Cite web
  80. Шаблон:Cite web
  81. 'Kẻ hủy diệt' trực thăng của Phòng không Việt Nam – 'Ke huy diet' truc thang cua Phong khong Viet Nam – DVO – Báo Đất Việt Шаблон:Webarchive. Baodatviet.vn (14 March 2013). Retrieved on 2017-01-06.
  82. Шаблон:Cite web
  83. Шаблон:Cite web
  84. Шаблон:Cite web
  85. Шаблон:Cite web
  86. Шаблон:Cite web
Источник — http://wikihandbk.com/ruwiki/index.php?title=Английская_Википедия:9K38_Igla&oldid=12871410