Military Wiki
(NATO reporting name: AS-17 'Krypton')
Russian missile -MAKS Airshow 2003.JPG
Type Medium-range air-to-surface missile
Place of origin Soviet Union
Service history
In service 1988–present
Used by Russia, China, India, Algeria
Production history
Manufacturer Tactical Missiles Corporation
(Zvezda-Strela before 2002)
Unit cost $550 000 (2010)[1]
Produced 1982
Weight Kh-31A :610 kg (1,340 lb)[2]
Kh-31P :600 kg (1,320 lb)[2]
Length Mod 1 : 4.700 m (15 ft 5.0 in)[3]
Mod 2 (AD/PD) : 5.232 m (17 ft 2.0 in)[4]
Diameter 360 mm (14 in)[2]

Warhead HE shaped charge[2]
Warhead weight Kh-31A :94 kg (207 lb)[2]
Kh-31P :87 kg (192 lb) [2]

Engine Solid fuel rocket in initial stage, ramjet for rest of trajectory
Wingspan 914 mm (36.0 in)[2]
Kh-31A: 25 km–50 km (13.5–27 nmi; 15.5–31mi)[2]
Kh-31P: up to 110 km (60 nmi; 70 mi)[2]
Speed Kh-31A/P :2,160-2,520 km/h
   (1,340–1,570 mph)[2]
MA-31 :Mach 2.7 (low), Mach 3.5 (high)[3]
Kh-31A: inertial with active radar[2]
Kh-31P: inertial with passive radar
Both : Su-27SM, Su-30, Su-34, Su-35, MiG-29M, MiG-29K
Kh-31A only : Su-33
Also : Su-24M[4]

The Kh-31 (Russian: Х-31; AS-17 'Krypton')[5] is a Russian air-to-surface missile carried by aircraft such as the MiG-29 or Su-27. It is a sea skimming cruise missile with a range of 110 kilometres (60 nmi; 70 mi) or more and capable of Mach 3.5, and was the first supersonic anti-ship missile that could be launched by tactical aircraft.[4] There are several variants, it is best known as an anti-radiation missile (ARM) but there are also anti-shipping and target drone versions. There has been talk of adapting it to make an "AWACS killer", a long-range air-to-air missile.[5]


The proliferation of surface-to-air missiles (SAMs) has made the Suppression of Enemy Air Defence a priority for any modern air force intending offensive action. Knocking out air search radars and fire control radars is an essential part of this mission. ARMs must have sufficient range that the launch platform is out of range of the SAMs, high speed to reduce the risk of being shot down and a seeker that can detect a range of radar types, but they do not need a particularly big warhead. The Soviet Union's first ARM was developed by the Raduga OKB engineering group responsible for the Soviet Union's missiles for heavy bombers. The Kh-22P was developed from the 6-tonne Raduga Kh-22 (AS-4 'Kitchen') missile. Experience gained with this led in 1971 to the Kh-28 (AS-9 'Kyle') carried by tactical aircraft such as the Su-7B, Su-17 and Su-24. It had Mach 3 capability and a 120 km (60 nmi) range, greater than the contemporary AGM-78 Standard ARM. The Kh-28 was succeeded by the Kh-58 in 1978, which has similar speed and range but replaces the dual-fuel rocket motor with a much safer RDTT solid propellant. The development of more sophisticated SAMs such as the MIM-104 Patriot and the US Navy's Aegis combat system put pressure on the Soviets to develop better ARMs in turn.[6][7] Zvezda came at the problem from a different angle to Raduga, having a background in lightweight air-to-air missiles. However in the mid-1970s they had developed the successful Kh-25 family of short-range air-to-surface missiles, including the Kh-25MP (AS-12 'Kegler') for anti-radar use. Zvezda started work on a long-range ARM in 1977,[citation needed] and the first launch of the Kh-31 was in 1982.[4] It entered service in 1988[citation needed] and was first displayed in public in 1991, the Kh-31P at Dubai and the Kh-31A at Minsk.[4]

In December 1997 it was reported that a small number of Kh-31's had been delivered to China, but that "production had yet to begin".[8] It was around this time that the Russians sold Su-30MKK 'Flanker-G' aircraft to the Chinese. It seems that the original deliveries were of the original Russian model designated as X-31, to allow testing whilst the KR-1 model was being developed for licence production.[9] Local production may have started by July 2005.[citation needed]

Russian development has accelerated since Zvezda was subsumed into the Tactical Missiles Corporation in 2002, with the announcement of the 'D' extended range models and the 'M' model mid-life updates (see Variants section below).


L112E seeker

In many respects the Kh-31 is a miniaturised version of the P-270 Moskit (SS-N-22 'Sunburn') and was reportedly designed by the same man.[4] The missile is conventionally shaped, with cruciform wings and control surfaces made from titanium.[3] The two-stage propulsion is notable. On launch, a solid-fuel booster in the tail accelerates the missile to Mach 1.8[4] and the motor is discarded. Then four air intakes open up and as in the Franco-German ANS/ANF the empty rocket case becomes the combustion chamber of a kerosene-fuelled ramjet, which takes it beyond Mach 4.[5] The L-111E seeker of the anti-radar version has a unique antenna, an interferometer array of seven spiral antennas on a steerable platform.[5] The seekers delivered to China in 2001-2 were 106.5 cm (41.9 in) long, 36 cm (14 in) in diameter, and weighed 23 kg (51 lb).[10]

Operational history

The Kh-31P ARM entered service in Russia in 1988 and the Kh-31A anti-shipping version in 1989. Unlike its predecessors, it can be fitted to almost any of Russia's tactical aircraft, from the Su-17 to MiG-31.

As mentioned above, a few Kh-31P/KR-1's were delivered to China in 1997 but these were apparently for testing and development work. The Chinese ordered Russian missiles in late 2002 or early 2003, leading to 200 KR-1's in their inventory by 2005;[4] the Chinese press reported in July 2005 that Su-30MKK's of the 3rd Air Division had been equipped with the missiles.[10] In 2001 India bought Kh-31s for its Su-30MKI; they appear to have bought 60 Kh-31A and 90 Kh-90P.[4]

The US Navy bought eighteen MA-31 target drones[11] of which thirteen were fired between 1996-2003.[3] An $18.468-million order for thirty-four MA-31 was placed in 1999,[12] but this order was blocked by the Russians[11] and the remaining drones were expended in December 2007.[13] The MA-31 was launched from an F-4 Phantom, and work was done on a kit to launch it from an F-16.[3]


Kh-31P (right) with R-27 (left) and Kh-59 (middle) at MAKS Airshow, Zhukovskiy, 1999

  • Kh-31A - active seeker head for use as an anti-shipping missile against vessels up to destroyer size, range of 25 km–50 km (13.5–27 nmi; 15.5–31 mi).[2] Missile is sea-skimming as it approaches the target.
  • Kh-31P (Type 77P)[4] - passive seeker head for use as an anti-radiation missile. Stays at high altitude throughout its flight, allowing higher speeds and increasing range to 110 km (60 nmi; 70 mi). The seeker has three interchangeable modules to cover different radar frequency bands,[8] but they can only be changed at the factory.[citation needed]
  • Kh-31AD/Kh-31PD ("Kh-31 Mod 2") - increase range "by a modest amount" through increasing the fuselage from 4.70 m (15 ft 5 in) to 5.23 m (17 ft 2 in) long.[14]
  • Kh-31AM/Kh-31PM - substantial update to electronics and propulsion systems, trials scheduled for 2005/6. Updated resistance to countermeasures, better fuses, and an improved 31DP propulsion system that "considerably" improves the range with little increase in weight. The Kh-31AM has an improved RGS-31 active seeker, whilst the Kh-31PM replaces the L-111, L-112 and L-113 seekers with a single multiband unit, the L-130.[15]
  • MA-31 - telemetry and other systems installed by McDonnell Douglas/Boeing for use by the US Navy as a target drone. Tested between 1996-9; a version upgraded with GPS, the MA-31PG, was offered to the Navy as a replacement for the MQM-8 Vandal but they bought the GQM-163 Coyote. Even with the additional equipment, the MA-31 was capable of Mach 2.7 and 15G manoevres in its anti-ship (sea-skimming) flight profile and Mach 3.5 in ARM mode at 48,000 ft (15,000 m).[3]
  • KR-1 - version of the Kh-31P exported to China in 1997.[8] It seems that Zvezda wanted to sell an initial batch of KR-1's to China, before the KR-1 went into production in China.[8] Rather than the original three seeker modules, the KR-1 has a single K-112E "export" seeker targeting D-F band (S band) emissions, and reportedly optimised for specific Taiwanese radars.[4]
  • YJ-91 Ying Ji 91 - Chinese missile based on the Kh-31P, with faster speed, slightly longer range, and easier switching of seeker heads.[citation needed] They are also reported to have developed an anti-shipping version with an indigenous active seeker, and are looking to develop this for use in submarines. The name YJ-91 was already in use by 1997, and may have been a Chinese name for the original Russian missiles[8] designated X-31 by the Russians. By 2005, the name YJ-93 was being applied to missiles made in China,[10] but Western reports generally do not distinguish between YJ-91 and YJ-93.

An active/passive air-to-air version for use against slow-moving support aircraft, a so-called "AWACS killer", was announced at the 1992 Moscow air show with 200 km (110 nmi; 120 mi) range.[4] That would be less than the 300–400 kilometres (160–220 nmi; 190–250 mi) promised by the Vympel R-37 (AA-13 'Arrow') and Novator R-172 missiles, but a Kh-31 derivative could be carried by a wider range of aircraft. However this may have been mere propaganda; in 2004 the Tactical Missiles Corporation "emphatically denied" that it had ever worked on an air-to-air version of the Kh-31.[9] In 2005 rumours persisted of a Russian AWACS killer based on the Kh-31A anti-shipping model, and of the Chinese adapting the YJ-91, derived from the Kh-31P, for the same purpose.[5]


  •  Russia 222: 2009 delivered 147, 2010 delivered 75 Kh-31[1]
  •  Algeria 114 delivered in 2009-2010[1]
  •  Syria 87 delivered in 2008-2010[1][16]
  •  India
  •  People's Republic of China
  •  Indonesia[17]
  •  Venezuela
  •  Vietnam
  •  Peru
  •  Malaysia
  •  Soviet Union

See also


  1. 1.0 1.1 1.2 1.3 annual report Tactical Missiles Corporation 2010.p. 92
  2. 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 Rosoboronexport Air Force Department and Media & PR Service. "AEROSPACE SYSTEMS export catalogue". Rosoboronexport State Corporation. Archived from the original on 2011-07-19. 
  3. 3.0 3.1 3.2 3.3 3.4 3.5 Braucksick, Ken (2004-11-17). "MA-31 Target Vehicle OVERVIEW". NDIA. . Sales pitch from Boeing, has useful diagrams of flight profiles etc
  4. 4.00 4.01 4.02 4.03 4.04 4.05 4.06 4.07 4.08 4.09 4.10 4.11 Friedman, Norman (2006). "The Naval Institute Guide to World Naval Weapon Systems". Naval Institute Press. pp. pp534–5. ISBN 978-1-55750-262-9. 
  5. 5.0 5.1 5.2 5.3 5.4 "Missiles in the Asia Pacific". Amberley, Queensland: Strike Publications. May 2005. p. p67. 
  6. "China's Military Strategy Toward the U.S.". 
  7. "CRS Report for Congress, China: Ballistic and Cruise Missiles". Retrieved 2000-08-10. 
  8. 8.0 8.1 8.2 8.3 8.4 Barrie, Douglas (1997-12-10). "China and Russia combine on KR-1". p. 17. 
  9. 9.0 9.1 "Russia: - AS-17 Krypton (Kh-31)". 1998-09-09. Retrieved 2009-01-27.  Cite error: Invalid <ref> tag; name "Janes" defined multiple times with different content
  10. 10.0 10.1 10.2 "China may be producing Kh-31P ARM". 2005-07-11. [dead link]
  11. 11.0 11.1 "Report of the Defense Science Board Task Force on Aerial Targets". Office of the Under Secretary of Defense for Acquisition, Technology, and Logistics. p. p10 and p56. 
  12. "Contracts for Thursday, December 16, 1999". US Department of Defense. 1999-12-16. 
  13. Buckley, Capt. Pat (2007-10-31). "U.S. Navy Aerial Target Systems (Presented to 45th Annual NDIA Symposium)". US Navy. 
  14. Barrie, Douglas; Komarov, Alexey (2007-09-10). "War on Two Fronts for Russia's Missile Builders". p. p68. 
  15. Letunovsky, Yevgeniy (2004-11-01). "Improved Kh-31 to begin state trials in 2005/6". 
  16. annual report Tactical Missiles Corporation 2009.p. 77
  17. 2011 Annual Report of Tactical Missile Corporation,


  • Gordon, Yefim (2004). "Soviet/Russian Aircraft Weapons Since World War Two". Hinckley, England: Midland Publishing. ISBN 1-85780-188-1. 

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