P-15 Termit
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P-15 Termit SS-N-2 Styx | |
---|---|
Type | Anti-ship missile |
Place of origin | Soviet Union |
Service history | |
In service | 1960–present |
Production history | |
Manufacturer | MKB Raduga |
Specifications | |
Mass | 2,580 kg (5,690 lb) |
Length | 5.8 m (19 ft) |
Diameter | 0.76 m (2 ft 6 in) |
Wingspan | 2.4 m (7 ft 10 in) |
Warhead | 454 kg (1,001 lb) hollow charge high explosive |
Engine | Liquid-propellant rocket, solid-propellant rocket booster |
Operational range | 40 kilometres (25 mi) / 80 kilometres (50 mi) |
Flight altitude | 25 to 100 metres (82 to 328 ft) |
Maximum speed | Mach 0.95 |
Guidance system | INS, active radar homing, supplemented in some with infrared homing |
Launch platform | naval ships, ground launch |
The P-15 Termit (Russian: П-15 "Термит"; English: termite) is an anti-ship missile developed by the Soviet Union's Raduga design bureau in the 1950s. Its GRAU designation was 4K40, its NATO reporting name was Styx or SS-N-2. China acquired the design in 1958 and created at least four versions: the CSS-N-1 Scrubbrush and CSS-N-2 versions were developed for ship-launched operation, while the CSS-C-2 Silkworm and CSS-C-3 Seersucker were used for coastal defence. Other names for this basic type of missile include: HY-1, SY-1, and FL-1 Flying Dragon (Chinese designations typically differ for export and domestic use, even for otherwise identical equipment), North Korean local produced KN-1 or KN-01, derived from both Silkworm variants and Russian & USSR P-15, Rubezh, P-20 P-22 .
Despite its large size, thousands of P-15s were built and installed on many classes of ships from torpedo boats to destroyers, and coastal batteries and bomber aircraft (Chinese versions).
Origins
[edit]The P-15 was not the first anti-ship missile in Soviet service; that distinction goes to the SS-N-1 Scrubber, and to the aircraft-launched AS-1 Kennel. The SS-N-1 was a powerful but rather raw system, and it was soon superseded by the SS-N-3 Shaddock. This weapon was fitted to 4,000-ton Kynda class cruisers and replaced an initial plan for 30,000-ton battlecruisers armed with 305 mm (12.0 in) and 45 mm (1.8 in) guns. Rather than rely on a few heavy and costly ships, a new weapons system was designed to fit smaller, more numerous vessels, while maintaining sufficient striking power. The P-15 was developed by the Soviet designer Beresyniak, who helped in the development of the BI rocket interceptor.[1]
Design
[edit]The first variant was the P-15, with fixed wings. The basic design of the missile, retained for all subsequent versions, featured a cylindrical body, a rounded nose, two delta wings in the center and three control surfaces in the tail. It was also fitted with a solid-fueled booster under the belly.[2] This design was based on the Yak-1000 experimental fighter built in 1951.
The weapon was meant to be cheap, yet still give an ordinary missile boat the same 'punch' as a battleship salvo. The onboard electronics were based on a simple analog design, with a homing conical scanning radar sensor. It used a more reliable rocket engine with acid fuel in preference to a turbojet.[citation needed]
Some shortcomings were never totally solved, due to the liquid propellant of the rocket engine: the acid fuel gradually corroded the missile fuselage. Launches were not possible outside a temperature range of −15 to 38 °C (5 to 100 °F).[2]
The missile weighed around 2,340 kilograms (5,160 lb), had a top speed of Mach 0.9 and a range of 40 kilometres (25 mi). The explosive warhead was behind the fuel tank, and as the missile retained a large amount of unburned fuel at the time of impact, even at maximum range, it acted as an incendiary device.[2]
The warhead was a 500-kilogram (1,100 lb) shaped charge, an enlarged version of a high-explosive anti-tank (HEAT) warhead, larger than the semi-armour piercing (SAP) warhead typical of anti-ship missiles. The launch was usually made with the help of electronic warfare support measures (ESM) gear and Garpun radar at a range of between 5.5 and 27 kilometres (3.4 and 16.8 mi) due to the limits of the targeting system. The Garpun's range against a destroyer was about 20 kilometres (12 mi).[2]
The onboard sensor was activated at 11 kilometres (6.8 mi) from impact, the missile would begin to descend at 1-2° to the target, because the flight pattern was about 120 to 250 metres (390 to 820 ft) above sea level. In minimum range engagements there was the possibility of using active sensors at shorter distances, as little as 2.75 kilometres (1.71 mi).[2] The P-15U was introduced in 1965, with improved avionics and folding wings, enabling the use of smaller containers. It was replaced by the P-15M in 1972, which was a further development of the P-15U, with enhanced abilities (its export simplified variants were designated P-21 and P-22, depending on the sensor installed, and a whole export system was designated the P-20M).[citation needed]
Versions
[edit]Russia
[edit]In total, the P-15 family had the following models:[2]
- P-15: A basic (SS-N-2A) with I-band, a conical search sensor and 40 km (25 mi) range.
- P-15M: (SS-N-2C), heavier and longer than the P-15, it had a range of 80 km (50 mi) and several minor improvements.
- P-15MC: Essentially a P-15M, coupled with a Bulgarian-made electronic countermeasure package for that country's navy.
- P-20: A P-15 updated with the new guidance system but with the original shorter range. They were perhaps known as SS-N-2B and used by Komar and Osa class boats.
- P-20K: A P-15M with a new guidance system.
- P-20M: A surface version of the P-20L with folding wings. This was the definitive version of the P-15M with radar guidance.
- P-22 other development of or along P-20; other variants P-21, P-27
- 4K51 Rubezh and 4K40, SS-N-2C SSC-3 Styx, using P-20 and P-22, Self-propelled missile
People's Republic of China
[edit]The Chinese used this missile as a basis for their Silkworm series, with infrared (IR), radar, and turbojets or rocket engines depending on the model. The fuselage width is 75 to 80 centimetres (30 to 31 in). The mass is over 2 tonnes. This is comparable to the 600 to 800 kilograms (1,300 to 1,800 lb) and 35 to 40 centimetres (14 to 16 in) of Western missiles. With improved electronics, the warhead reduced to 250 kilograms (550 lb) and the original rocket engine replaced with a turbojet, this weapon was much improved with a range of over 100 kilometres (60 mi). Chinese Silkworm missiles were used in hundreds of ships and shore batteries. The Chinese Navy built more than two hundred modified versions of the 183R (Komar-class), the Hegu-class, (complete with a longer hull and an added 25mm mount aft) and the Osa-class. Frigates and destroyers were also equipped with the missile. Some were exported and they were used in shore batteries built for North Korea, Iraq and Iran. The Soviet Union developed an equivalent, the P-120 Malakhit.
- SY-1 (C.201) (SY is the abbreviation of pinyin: Shàng Yóu, literal meaning is upper river): The original Chinese copy of P-15 as ship-to-ship missile, called as Project 544, designed and assembled by Nanchang Aerocraft Factory from 1960, first inland test flight in December 1964 and ship-mounted test-fired in August 1965, finished the research tests in June 1966, began definitizing test from Nov 1966, permitted definitize in August 1967. It entered service during 1968 in missile boats and destroyers and later coastal batteries. Its length was 6.55 metres (21.5 ft), it had a diameter of 0.76 m (30 in), and a wingspan of 2.4 m (7.9 ft). It weighed 2,095 kilograms (4,619 lb) of which 513 kilograms (1,131 lb) was the HEAT warhead. Its range was 40 kilometres (25 mi) at Mach 0.8, with a flight altitude of 100 to 300 metres (330 to 980 ft), it used inertial and active radar guidance systems. This unit employed conical scanning and was vulnerable to electronic counter measures (ECM), due to its slow onboard computer. The SY-1A entered service after 1984, with a monopulse surface-search radar comparable to the evolution of the AIM-7 F to M model as well as sea-skimming flight profile enabled by a radar altimeter.
- SY-2: Originally a supersonic development, a less-ambitious proposal for an improved version of SY-1A using a solid-fuel rocket engine was adopted in 1976 and ultimately selected for service. The new engine not only allows the missile to forgo its predecessor's pre-launch fueling process but also makes the missile smaller and lighter while actually extending its range to 50 km (31 mi). Just as importantly, the missile uses the existing launchers and logistical equipments of earlier SY-1, allowing for drop-in replacement of ordnance on older PLAN surface combatants. The export designation is FL-2.
- HY-2 (C.201) (HY is the abbreviation of pinyin:Hǎi Yīng, literal meaning is Sea Eagle): It was the equivalent of the P-15M, and was known as the C-SS-3 Saccade. Designed for coastal batteries, with a larger airframe, its dimensions were: 7.48 m × 0.76 m × 2.4 m (24.5 ft × 2.5 ft × 7.9 ft), weight 2,998 kilograms (6,609 lb). extended range from the SY-1's 30 to 50 kilometres (19 to 31 mi). Trials were carried out from 1967 to 1970 with 10 missiles out of 11 hitting the target. It entered service in China and was also exported. There were several versions:
- HY-2: Basic, inertial and conical radar search (improved to SY-1), 1970.
- HY-2A: IR-guidance variant. Developed during the 1970s and in 1980, it did not enter service despite certification in 1982. It was the equivalent of the P-22.
- HY-2A-II: An improved variant of the HY-2A with an improved IR sensor, it entered service in 1988. It was also available for export.
- HY-2B: Fitted with monopulse-search radar to improve accuracy and reliability, it was test-fired, scoring five hits out of six and entered service two years later in 1984. The YB-2B-II had another radar search system, entering service in 1989. These two missiles could fly at an altitude of 20–50m, so the overall abilities (altitude, range, reliability, electronic counter counter measures (ECCM)) were greatly superior.
- C-201W: Fitted with a turbojet engine instead of a liquid rocket version. It was only used for export, it had a 150 km range. It is arguably also called HY-4 or C-SS-N-7 Sadpack, its dimensions are similar to the HY-1 and HY-2, but its weight is only 2,000 kilograms (4,400 lb), demonstrating the differences between turbojet and rocket propulsion systems. It can fly at 70 metres (230 ft) and attack at 8 metres (26 ft), with a 300-to-500-kilogram (660 to 1,100 lb) charge. The XW-41 land attack missile was extrapolated from this design, it had a range of about 400 kilometres (250 mi), which was enough to attack Taiwan. It is not known if this model entered service.
Substitutes of these missiles are the FL-2 and FL-7, which were solid-rocket fuelled and the C-701 and C-801, which were similar to the Exocet and other missile systems, among them the SS-N-22 Sunburn, it was bought for Sovremenny class destroyers.
North Korea
[edit]- KN-1 or KN-01 locally produced Geum Seong-1 Korean 금성-1호, derived from both Silkworm and Russian P-15 Termit, Rubezh, P-20 P-22 .
Launch platforms
[edit]This missile, despite its mass, was used in small and medium ships, from 60 to 4,000 tons, shore batteries and (only for derived models) aircraft and submarines. The main users were:
- Komar-class missile boats
- Osa-class missile boats
- Vidyut class missile boat (Indian version of OSA-1 class)
- Chamak class missile boat (Indian version of OSA-2 class)
- Tarantul-class corvettes
- Veer Class Corvette (Indian licence built version of Tarantul-class corvette)
- Nanuchka-class corvettes
- Koni-class frigates
- Kotor-class frigates
- The frigate Mărășești
- Kildin-class destroyers
- Kashin-class destroyers
- Rajput Class destroyers (Indian version of Kashin Class)
Operational usage
[edit]This section may require cleanup to meet Wikipedia's quality standards. The specific problem is: This is not an actual use (firing) of the missile type, only a deployment. (January 2016) |
This section needs additional citations for verification. (April 2020) |
Cuban Missile Crisis
[edit]The first use of these weapons was in 1962, during the Cuban Missile Crisis. Komar-class missile boats were deployed in Operation "Anadyr" ("Анадырь"), organized by the Soviet Union to help the Castro government. At least eight were sent in cargo ships, due partly to their small dimensions and were presumably left to the Cuban Navy after the crisis, together with many other weapons of Soviet origin.
War of Attrition
[edit]During the War of Attrition, after the Six-Day War in 1967, the Israeli destroyer Eilat was sailing at low speed outside Port Said on 21 October. At a range of 17 nautical miles (31 km), she was attacked by two Egyptian Komars, acting as a coastal missile battery both fired their missiles from inside the harbour. Eilat was hit, despite defensive anti-aircraft fire. The first two missiles almost blew the Eilat in two; another hit soon after, and the last exploded near the wreck in the sea. Eilat sank two hours after the first attack. 47 crew were killed.[3] After this engagement, interest in this type of weapon was raised in both offensive weapons and defensive weapons such as close-in weapon systems (CIWS) and electronic countermeasures (ECM).
Indo-Pakistani War
[edit]During the Indo-Pakistani War of 1971, Indian Osa-class boats raided the port of Karachi in two highly successful operations causing severe damage and sinking several ships with their P-15s, among them the destroyer, Khaibar. She was a former Battle-class destroyer, originally designed as an anti-aircraft ship. Her armament might be effective against conventional air threats, (mounting 5 × 114 mm guns and several 40 mm Bofors), but had little chance against anti-ship missiles.
These raids were meant to strike Karachi and destroy the Pakistani Navy in Western Pakistan. The first action, Operation Trident, was carried out by three Osa class missile boats on the night of 5 December.[4] 'Operation Trident' involved:
- INS Nipat (Lt.-Cdr B.N Kavina, Vir Chakra (VrC))
- INS Nirghat (Lt.-Cdr I.J Sharma, Ati Vishisht Seva Medal (AVSM), VrC)
- INS Veer (Lt.-Cdr O.P Mehta, VrC, NM)
Around 20:30, a target was acquired by radar, at a distance of over 64 kilometres (40 mi), and Nirghat fired two missiles. This target was the destroyer Khaibar, sailing at 20 knots (37 km/h). The crew of the ship saw a "bright light" in the sky, low on the water. Believing it to be the afterburner of a fighter aircraft, Khaibar opened fire with her Bofors guns, but these were not effective against such a small, fast target. The missile struck the starboard side at 22:45, destroying the electrical system. One of the boilers, possibly struck by the HEAT charge, also exploded. Despite thick smoke and a fire, Khaibar was still able to engage the second missile, again mistaking it for an enemy fighter. This missile struck the ship four minutes after the first, destroying and quickly sinking her.
During this action, Nipat attacked another two ships; the cargo vessel Venus Challenger, which was carrying ammunition from Saigon, was destroyed. Her escort, the destroyer PNS Shahjahan was severely damaged and later scrapped.
Veer then attacked Muhafiz at 23:05, (she was a minesweeper that had witnessed the attacks against Khaibar); she was hit and disintegrated, throwing most of the crew into the water before she sank.
Nipat fired two missiles at the port of Karachi. This is the first known use of an anti-ship missile against land targets. Large oil tanks, identified by radar, were hit by the first missile, destroying it, while the second weapon failed. Over the following nights there were other ship actions. Karachi was again attacked with missiles, while Petya-class frigates provided anti-submarine protection to the Osa-class boats.
On the night of 8 December, in the second operation, Operation Python, the Osa-class boat Vinash, escorted by two frigates, fired missiles at Karachi in a six-minute action. One missile hit an oil tank, destroying it. The British ship Harmattan was sunk, the Panamanian ship Gulfstar was set on fire. The Pakistan Navy fleet tanker, PNS Dacca, was badly damaged and only survived because the commanding officer, Captain. S.Q. Raza S.J. P.N., ordered the release of steam in the pipes that prevented the fire reaching the tanks. Though anti-aircraft guns opened fire in response, they only managed to hit a Greek ship, Zoë, that was moored in the port and consequently sank.
In all these actions against large ships, the P-15 proved to be an effective weapon, with a devastating warhead. Out of eleven missiles fired, only one malfunctioned, giving a 91% success rate. This gave every Osa FAC the possibility of striking several targets. Big ships, without any specialized defence, were targets for P-15s.
United States
[edit]CIA inspected and analyzed data on Styx missiles from the guidance systems of missiles delivered to Indonesia. The US Navy had underestimated the threat of Soviet missiles, but after 1967 this changed. The US Navy thought that North Vietnam missile boats and coastal defenses using P-15 missiles could be met by US vessels off the coast and that ECM and air defense missiles would be effective countermeasures. The Soviet Union in fact decided not to supply P-15 missiles to North Vietnam, even though a promise to do so had been made in 1965.[citation needed]
In April 1972 the US Navy claimed to have been attacked by P-15 missiles during the Battle of Đồng Hới and they were shot down by Terrier missiles.[citation needed]
Yom Kippur War
[edit]Despite these early successes, the 1973 Yom Kippur War saw P-15 missiles used by the Egyptian and Syrian navies prove ineffective against Israeli ships. The Israeli Navy had phased out their old ships, building a fleet of Sa'ar-class FACs: faster, smaller, more maneuverable and equipped with new missiles and countermeasures.[5]
Although the range of the P-15 was twice that of the Israeli Gabriel, allowing Arab ships to fire first, radar jamming and chaff degraded their accuracy. In the Battle of Latakia and Battle of Baltim, several dozen P-15s were fired and all missed. Arab ships did not possess heavy firepower required for surface combat against enemy vessels, usually only 25 and 30 mm guns, and Osa and Komar boats were not always able to outrun their Israeli pursuers.
Iran–Iraq War
[edit]P-15 variants, including the Chinese duplication "Silkworm", were employed by Iran against Iraq in the 1980–1988 Iran–Iraq War, with some success. As the Iranian coastline is longer than Iraq's, control of the Persian Gulf was relatively easy. Shore batteries with missiles can control a large part of this area, especially around the Hormuz Strait.
Iraq also acquired Silkworms, some with an IR homing ability. Iraqi OSA-class missile boats equipped with SS-N-2 used them against the IRIN navy, managed to hit and sink an Iranian Kaman-class fast attack craft, but sustained heavy losses, especially from Iranian Harpoons and Mavericks. Iraqi forces combined SS-N-2 (P-15 Termit) launched from Tu-22, Exocet missiles launched from Mirage F1 and Super Etendard, as well as Silkworm missiles and C-601 missiles launched from Tu-16 and H-6 bombers, bought from the Soviet Union and China to engage the Iranian Navy and tankers carrying Iranian oil.
Gulf War (1990–1991)
[edit]During the First Gulf War an Iraqi missile crew attacked US battleship USS Missouri with a Silkworm, while it was escorting a fleet of minesweepers engaged in coastal anti-mine operations. HMS Gloucester engaged the missile with a salvo shot of Sea Dart missiles which destroyed it after it had flown over its initial target.
Operators
[edit]The P-15 missile family and their clones were widely deployed from the 1960s.
The German Navy, after reunification, gave its stock of almost 200 P-15s to the United States Navy in 1991, these weapons being mainly the P-15M/P-22. They were used for missile defence tests.[6]
Current operators
[edit]- Algerian National Navy – P-20U and 4K51 Rubezh.[7]: 316
- Cuban Revolutionary Navy – P-22, P-20U, and 4K51 Rubezh.[7]: 394
- Egyptian Navy – P-20.[7]: 321
- Indian Navy – P-27 Termit-R mounted on destroyers and corvettes.[7]: 249–250
- Islamic Republic of Iran Navy – HY-2.[7]: 325
- Libyan Navy – P-22.[7]: 340
- Korean People's Navy – P-15, P-20, HY-1 and Kumsong-3.[7]: 263–264
- People's Liberation Army Navy – HY-1, HY-2, and HY-4.[7]: 239
- Romanian Naval Forces – P-22.[7]: 126–127
- Russian Navy – P-22 Mounted on Tarantul-class corvettes and 4K51 Rubezh on coastal batteries.[7]: 188, 190
- Syrian Arab Navy – P-15M and P-22.[7]: 355
- Vietnam People's Navy – P-15,[8] P-20, and 4K51 Rubezh.[7]: 300
Former operators
[edit]- Angolan Navy[9]: 125 – retired from service.
- Azerbaijani Navy[10]: 87 – retired from service.
- Bangladesh Navy – HY-1 and HY-2 used on Type 021-class missile boats and Type 024 missile boats,[11] retired from service.
- Bulgarian Navy – P-22, used until 2021.[12]: 90
- Finnish Navy[13]: 87 – retired from service.
- Volksmarine[13]: 47–48 – passed on to Germany.
- German Navy – acquired from East Germany after the German reunification and withdrawn from service shortly thereafter.
- Border Police of Georgia – P-15M missiles transferred from Ukraine in 1999 for the Matka-class missile boat, Tbilisi.[11]
- Ethiopian Navy[13]: 127 – passed on to Eritrea.
- Eritrean Navy – acquired from Ethiopia. Out of service in 2004.[14]: 233
- Indonesian Navy – used on Komar-class missile boats.[11]
- Iraqi Navy[15]: 134 – retired from service after the 2003 Invasion of Iraq.
- Montenegrin Navy[16]: 120 – retired from service.
- Polish Navy – P-21/22 used until 2014.[16]: 127
- Somali Navy[13]: 113 – out of service after the Somali Civil War.
- South Yemen[13]: 118 – passed on to the unified Yemeni state.
- Soviet Navy[13]: 36–37 – passed on to successor states.
- Ukrainian Navy[17]: 213 – operated some prior to the 2022 Invasion of Ukraine.
- Yemeni Navy[16]: 351 – acquired after the Yemeni unification. Non-operational after the civil war.
- Yugoslav Navy[13]: 91 – passed on to successor states.
Captured-only operators
[edit]- United States Navy, for experimental activities.[citation needed]
- Pakistan Navy, acquired from Egyptian Navy for experimental activities only, no deployment.: 246 [18]
References
[edit]- Notes
- ^ "P-15 Termit Anti-Ship Cruise Missile | Military-Today.com". www.military-today.com. Retrieved 9 August 2021.
- ^ a b c d e f Slade, Stuart
- ^ "The Missile Boat War" (PDF). Archived from the original (PDF) on 27 October 2009.
- ^ "Bharat Rakshak Monitor". Bharat-rakshak.com. Archived from the original on 7 December 2011. Retrieved 13 January 2022.
- ^ "The Battle of Latakia". Jewish Virtual Library.
- ^ News section in a P&D Magazine, December 1991
- ^ a b c d e f g h i j k l International Institute for Strategic Studies (15 February 2023). The Military Balance 2023 (1st ed.). Routledge. ISBN 978-1032508955.
- ^ "Vietnam's Naval Upgrades Likely Will Limit but not Deter China in the South China Sea | cogitasia.com". www.cogitasia.com/. Retrieved 9 August 2021.
- ^ International Institute for Strategic Studies (1991). The military balance. 1991-1992. London: Brassey's. ISBN 978-0080413259.
- ^ International Institute for Strategic Studies (1 October 2000). The Military Balance 2000-2001. Oxford University Press. ISBN 978-0199290031.
- ^ a b c "Trade Registers". Stockholm International Peace Research Institute. Retrieved 1 June 2023.
- ^ International Institute for Strategic Studies (25 February 2021). The Military Balance 2021 (1st ed.). Routledge. ISBN 978-1032012278.
- ^ a b c d e f g Institute for Strategic Studies (1989). The military balance, 1989-1990. London: Brassey's. ISBN 978-0080375694.
- ^ International Institute for Strategic Studies (11 November 2004). The Military Balance 2004-2005. Oxford University Press. ISBN 978-0198566229.
- ^ International Institute for Strategic Studies (1 October 2001). The Military Balance 2001-2002 (1st ed.). Routledge. ISBN 978-0198509790.
- ^ a b c International Institute for Strategic Studies (5 February 2014). The Military Balance 2014 (1st ed.). Routledge. ISBN 978-1032508955.
- ^ International Institute for Strategic Studies (15 February 2022). The Military Balance 2022 (1st ed.). Routledge. ISBN 978-1032279008.
- ^ Sirohey, Iftikhar Ahmed (1995). Truth Never Retires: An Autobiography of Admiral Iftikhar Ahmed Sirohey. Jang Publishers. p. 523. Retrieved 22 September 2023.
- Bibliography
- "SS-N-2 Styx / HY-1 / SY-1". Federation of American Scientists. Archived from the original on 28 August 2016. Retrieved 25 March 2004.
- Harry, B. "Trident, Grandslam and Python: Attacks on Karachi". Bharat Rakshak Monitor. Archived from the original on 7 December 2011. Retrieved 24 February 2007.
- Kopp, Carlo (September 1988). "Maritime Strike: The Soviet Perspective". Air Power Australia. 1988 (July). Retrieved 24 February 2007.
- Slade, Stuart, The true history of Soviet anti-ship missiles, Rivista Italiana Difesa magazine May 1994.
- Shikavthecenko, V, 'Lightings in the sea: the Russian FACs developments' RID September 1995.
- SY-1 missile
- C.201 missile
External links
[edit]- Media related to P-15 Termit at Wikimedia Commons