Sea Dart
Sea Dart or GWS30 was a British naval surface-to-air missile system designed by Hawker Siddeley Dynamics in the 1960s, entering service in 1973. It was fitted to the Type 42 destroyers, Type 82 destroyer and s of the Royal Navy. Originally developed by Hawker Siddeley, the missile was built by British Aerospace after 1977, and was withdrawn from service in 2012.
Britain's first naval surface-to-air missile was GWS1 Seaslug, which entered service in 1963. This used beam riding guidance which offered limited accuracy and was useful only against slower targets. The need for a higher performance system was seen even as it entered service. Bristol Aerospace, which had recently introduced the ramjet-powered Bloodhound missile for the RAF, won the ensuing competition with another ramjet design. Compared to Seaslug, Sea Dart was faster, had much further range, and its semi-active radar homing guidance was much more accurate.
The missile system had eight confirmed successful engagements in combat, including six aircraft, a helicopter and an anti-ship missile. An additional helicopter was shot down in a 'friendly fire' incident during the Falklands War.
History
From the immediate post-WWII era, the Royal Navy had been looking for a general-purpose weapon to arm small ships. After the experience with German glide bombs during the war, the primary concern was a medium-range surface-to-air missile, leading to the development of the Seaslug system in the 1950s. This proved too large to be carried by a frigate-sized ship. Some consideration was given to a high-performance gun system for these ships, the DACR, but calculations showed it would ultimately be useless against future anti-ship missiles that would maneuver on the approach.In October 1960, the Navy launched the Small Ship Guided Weapon project to fill this need, as well as the recently-released NATO standard NMBR.11. This called for a weapon small enough to be carried on a 3,000 ton frigate and able to attack bombers, anti-shipping missiles, and other ships up to frigate size. Seaslug had taken much longer to develop than expected and was a very costly ongoing program. There was some concern that they should not be starting the development of a new system even before the ships carrying Seaslug were in service. A review by the Defence Research Policy Committee agreed with the Navy that the new design represented an entirely new class of weapon and that development should be undertaken.
Two systems were considered for the role, Bristol's CF.299 design using a ramjet with a small rocket booster launching it up to speed, and an adaptation of the Army's Sightline project, which would emerge as Rapier. CF.299 was ultimately chosen. A 1966 report estimated that CF.299 would have two-shot kill probability against an AS-2 Kipper missile of.8 to.9, whereas Seaslug II would manage only 0.35 to 0.55. Against a supersonic "Blinder" bomber, Pk was 0.5 to 0.8, compared to 0.3 to 0.5 for Seaslug. Additionally, because it flew faster than Seaslug, the total engagement time was shorter, and this meant the battery could salvo more rapidly. Finally, its ability to lead the target, compared to Seaslug's beam riding pursuit course, allowed it to attack targets with much higher crossing speeds. A 1968 study suggested Sea Dart would have the same capability as eight F-4 Phantoms on patrol.
By this time many foreign navies had chosen the US RIM-24 Tartar for the NMBR.11 role, but the Dutch Navy remained interested. They envisioned it being used with a new dedicated air-defense ship, controlled by a significantly more powerful radar, which the British referred to as the Type 988 "Broomstick". This was a 3D radar similar to the US AN/SPY-1 that was under development at the same time. Both the radar and missiles would be controlled by a new combat direction system being developed by both navies. Ultimately, the Dutch also chose Tartar for their missile component, leaving the Royal Navy as the Sea Dart's only initial users.
Sea Dart entered service in 1973 on the sole Type 82 destroyer before widespread deployment on the Type 42 destroyer commencing with in 1976. The missile system was also fitted to Invincible-class aircraft carriers but was removed during refits in the 1998-2000 period to increase the area of the flight deck and below-decks stowage associated with the operation of Royal Air Force Harrier GR9 aircraft.
Design
Sea Dart is a two-stage, long missile weighing. It is launched using a drop-off Chow solid-fuel booster that accelerates it to the supersonic speed necessary for the operation of the cruise motor, a Rolls-Royce kerosene-fuelled Odin ramjet. This gives a cruise speed of over Mach 2.5, and unlike many rocket-powered designs,the cruise engine burns for the entire flight, giving excellent terminal manoeuvrability at extreme range. It is capable of engaging targets out to at least over a wide range of altitudes. It has a secondary capability against small surface vessels, tested against a, although in surface mode the warhead safety arming unit does not arm and thus damage inflicted is restricted to the physical impact of the half-ton missile body and the unspent proportion of the of kerosene fuel.Guidance is by proportional navigation and a semi-active radar homing system using the nose intake cone and four aerials around the intake as an interferometer aerial, with targets being identified by a Type 1022 surveillance radar and illuminated by one of a pair of radar Type 909. This allows two targets to be engaged simultaneously in initial versions, with later variants able to engage more. Firing is from a twin-arm trainable launcher that is loaded automatically from below decks. The original launcher seen on the Bristol was significantly larger than that which appeared on the Type 42 and Invincible classes. Initial difficulties with launcher reliability have been resolved.
Combat service
Falklands War
Sea Dart was used during the Falklands War and is credited with seven confirmed kills. Kills were made against a high-flying aircraft beyond the missile's stated technical envelope and low-flying attack aircraft.The net effect of Sea Dart was to deny the higher altitudes to enemy aircraft. This was important because Argentine aircraft such as the Mirage III had better straight line performance than the Sea Harriers, which were unlikely to successfully intercept them.
The first Sea Dart kill was an Aérospatiale Puma, on 9 May 1982 near Stanley by, with the loss of the three men aboard.
On 25 May 1982 an A-4C Skyhawk of Grupo 5 was shot down north of Pebble Island again by Coventry. The pilot, Capitán Hugo Angel del Valle Palaver was killed. Later, Coventry shot down another Skyhawk of Grupo 4 while it was returning from a mission to San Carlos Water. Capitán Jorge Osvaldo García successfully ejected but was not recovered. The next Argentine action that day sank Coventry. An unguided Sea Dart was launched in an effort to disrupt the attack but missed, and the destroyer was struck by two iron bombs and sank.
The same day a Super Étendard strike fighter sought to attack the British carrier group with Exocet missiles, but instead struck the cargo ship. fired six Sea Darts in less than two minutes, but all missed.
On 30 May 1982, during the last Exocet air attacks against the British fleet shot down two Skyhawks, despite them flying only above the sea. On 6 June Exeter downed a Learjet 35A being used for reconnaissance at altitude.
On 6 June 1982, Cardiff fired a Sea Dart missile at an aircraft believed to be an Argentine C-130 Hercules. The missile destroyed the aircraft, which was in fact a British Army helicopter. All four occupants were killed in this "friendly-fire" incident.
Finally, on 13 June 1982, a Canberra Mk.62 was flying at. While it was en route to bomb British troops near Port Harriet House, it was destroyed by a Sea Dart fired from Cardiff.
In total at least eighteen missiles were launched by Type 42 destroyers, six by Invincible, and two by Bristol. Out of five missiles fired against helicopters or high flying aircraft, four were successful, but only two of nineteen fired at low level aircraft hit: just eleven per cent; however a number of missiles were fired without guidance to deter low level attacks. Exeters success can be partially attributed to being equipped with the Type 1022 radar, which was designed for the system and provided greater capability than the old Type 965 fitted to the earlier Type 42s. The Type 965 was unable to cope with low level targets as it suffered multiple path crossings and targets became lost in radar clutter from the surface of the South Atlantic. This resulted in Sea Dart being unable to lock onto targets at distance obscured by land, or fast-moving low-level targets obscured in ground clutter or sea-returns.
The Argentine Navy was well aware of the Sea Dart's capabilities and limitations, having two Type 42s of its own. Consequently, Argentine planes, opting to fly below the Type 965 radar, frequently dropped bombs which failed to explode. The arming vane on the bomb had insufficient time to complete the number of revolutions required to arm the fuze, causing the fuze to remain in safe mode and not function on impact.
Persian Gulf War (1991)
In February 1991 during the Persian Gulf War the US battleship, escorted by plus and , was engaged by an Iraqi Silkworm missile. The missile was intercepted and destroyed by a Sea Dart fired from Gloucester, the second time an anti-air missile had successfully engaged and destroyed an enemy missile during combat at sea after a Sea Dart from HMS Exeter successfully intercepted an Exocet during the Falklands War. During the same engagement, Jarretts Phalanx 20 mm CIWS was placed in autoengagement mode and targeted chaff launched by Missouri rather than the incoming missile.Variants
The Sea Dart was upgraded over the years - notably its electronics - as technology advanced. The following modification standards have been fielded:- Mod 0 — Basic 1960s version, used in the Falklands. valve technology. Range circa.
- Mod 1 — Improved Sea Dart. Upgraded version 1983–1986. Updated guidance systems possibly allowing some capability against sea-skimming targets and much greater reliability.
- Mod 2 — 1989–1991. Upgrade included ADIMP which saw the replacement of six old circuit cards in the guidance system with one, allowing the spare volume to be used for an autopilot. Used alongside a command datalink it allows several missiles to be 'in the air' at once, re-targeted during flight etc. and allows an initial ballistic trajectory, doubling range to with the upgraded 909 radar for terminal illumination only.
- Mod 3 — Latest version with new infrared fuze. Delayed eight years from 1994 to 2002.
Lightweight Sea Dart was a version with minimal changes to the missile itself, but based in a new sealed box-launcher. A four-box trainable launcher was developed that allowed it to be mounted to ships as small as 300 tons displacement. The same box and launcher could also support the Sea Eagle SL, the proposed ship-launched version of Sea Eagle. Guardian was a proposed land-based system of radars, control stations and the Lightweight Sea Dart proposed in the 1980s for use as a land-based air defence system for the Falkland Islands. Neither system was put into production.
Withdrawal
The Sea Dart equipped Type 42s reached the end of their service lives, with all vessels already retired. They were replaced by the larger Type 45 which are armed with the Sea Viper missile system. Sea Viper is much more capable in the anti-air role but has no anti-surface capability. The first-of-class began sea trials in July 2007 and Daring entered service in 2009.On 13 April 2012 fired the last ever operational Sea Dart missiles after a thirty-year career. The last two remaining Type 42s, and Edinburgh completed their careers without the system being operational.
A launcher with drill missiles has been preserved and is on display at Explosion! Museum of Naval Firepower, Gosport, Hampshire.
Operators
Former operators
- Argentine Navy: Purchased 60 missiles for their two Type 42 destroyers but retired them in 1987 due to lack of spares.
- Royal Navy