Blackburn Buccaneer

Buccaneer
Buccaneer S.2B, RAF Mildenhall, 1988
Role Maritime strike aircraft
National origin United Kingdom
Manufacturer Blackburn Aircraft Limited
Hawker Siddeley
First flight 30 April 1958
Introduction 17 July 1962
Retired 31 March 1994
Primary users Royal Navy
Royal Air Force
South African Air Force
Number built 211


The Blackburn Buccaneer was a Royal Navy (RN) carrier-borne attack aircraft designed in the 1950s. Designed and initially produced by Blackburn Aircraft at Brough, it was later officially known as the Hawker Siddeley Buccaneer when Blackburn became a part of the Hawker Siddeley group, but this name was rarely used.

The Buccaneer was originally designed in response to the Soviet Union's massive Sverdlov-class cruiser construction programme. Instead of building a new fleet of their own, the Royal Navy would use the Buccaneer to attack these ships with relative impunity by approaching at low altitudes below the ship's radar horizon. The Buccaneer would attack using a nuclear bomb or conventional weapons in engagements lasting less than a minute, quickly flying out of range while its weapons struck. It was later intended to carry short-range anti-shipping missiles to further enhance its survivability against more modern ship-based anti-aircraft weapons.[1]

The Buccaneer entered RN service in 1962. The initial production aircraft suffered a series of accidents due to insufficient engine power, which was quickly addressed in the Buccaneer S.2, equipped with more powerful Rolls-Royce Spey engines. The Buccaneer was also offered as an entrant into a new Royal Air Force (RAF) contest for a new attack aircraft. It was initially rejected in favour of the much more advanced supersonic BAC TSR-2, but the cost of this programme led to its cancellation, only to be followed by the cancellation of its selected replacement, the F-111K. The Buccaneer was finally purchased by the RAF, entering service in 1969.

The RN retired the last of its large aircraft carriers in 1978, moving their strike role to the British Aerospace Sea Harrier and passing their Buccaneers to the RAF. After a crash in 1980 revealed metal fatigue problems, the RAF fleet was reduced to 60 examples, while the rest of the fleet was scrapped. The ending of the Cold War led to a drawdown of the RAF and the accelerated retirement of the remaining fleet, with the last Buccaneers in RAF service being retired in 1994 in favour of the Panavia Tornado. The South African Air Force also procured the type. Buccaneers saw combat action in the Gulf War and the South African Border War.

Development

Royal Navy

Following the end of the Second World War, the Royal Navy soon found itself needing to respond to the threat posed by the rapid expansion of the Soviet Navy. Chief amongst Soviet naval developments in the early 1950s was the Sverdlov class cruiser; these vessels were classifiable as light cruisers, being fast, effectively armed and numerous. Like the German "pocket battleships" during the Second World War, they presented a serious threat to the merchant fleets in the Atlantic.[2] To counter this threat, the Royal Navy decided not to use a new ship class of its own, but instead introduce a specialised strike aircraft employing conventional or nuclear weapons. Operating from the Navy's fleet carriers and attacking at high speed and low level, it would offer a solution to the Sverdlov problem.[3]

Buccaneer S.1 at the 1962 Farnborough Airshow; the anti-flash white colour scheme is for the nuclear strike role

A detailed specification was issued in June 1952 as Naval Staff Requirement NA.39, calling for a two-seat aircraft with folding wings, capable of flying at 550 knots (1,019 km/h; 633 mph) at sea level, with a combat radius of 400 nautical miles (741 km; 460 mi) at low altitude and 800 nmi (1,482 km; 921 mi) at higher cruising altitudes. A weapons load of 8,000 pounds (3,629 kg) was required including conventional bombs, the Red Beard free-fall nuclear bomb or the Green Cheese anti-ship missile.[4] Based on the requirement, the Ministry of Supply issued specification M.148T in August 1952, and the first responses were returned in February 1953. Blackburn's design by Barry P. Laight, Project B-103, won the tender in July 1955.[5] Owing to secrecy, the aircraft was called BNA (Blackburn Naval Aircraft) or BANA (Blackburn Advanced Naval Aircraft) in documents, leading to the nickname of "Banana Jet". The first prototype made its maiden flight from RAE Bedford on 30 April 1958.[6][7]

The first production Buccaneer model, the Buccaneer S.1, entered squadron service with the Fleet Air Arm in January 1963.[8] It was powered by a pair of de Havilland Gyron Junior turbojets producing 7,100 pounds-force (32 kN) of thrust.[9] This mark was somewhat underpowered and as a consequence could not take off fully laden with both fuel and armament. A temporary solution to this problem was the "buddy" system; aircraft took off with a full load of weaponry and minimal fuel and would sortie with a Supermarine Scimitar that would deliver the full load of fuel by aerial refuelling.[10][11] The lack of power meant, however, that the loss of an engine during take-off or landing at full load, when the aircraft was dependent on flap blowing, could be catastrophic.[12]

The long-term solution to the underpowered S.1 was the development of the Buccaneer S.2, fitted with the Rolls-Royce Spey engine, which provided 40% more thrust. The turbofan Spey also had significantly lower fuel consumption than the pure-jet Gyron, which provided improved range. The engine nacelles had to be enlarged to accommodate the Spey, and the wing required minor aerodynamic modifications as a result.[13] Hawker Siddeley announced the production order for the S.2 in January 1962.[14] All Royal Navy squadrons had converted to the improved S.2 by the end of 1966.[15]

South Africa

In October 1962, 16 aircraft were ordered by the South African Air Force, as the Buccaneer S.50.[16] These were S.2 aircraft with the addition of Bristol Siddeley BS.605 rocket engines to provide additional thrust for the "hot and high" African airfields. The S.50 was also equipped with strengthened undercarriage and higher capacity wheel brakes, and had manually folded wings. They were equipped to use the AS-30 command guided air-to-surface missiles. Due to the need to patrol the vast coastline, they also specified In-flight refuelling and larger 430 US gallons (1,628 l; 358 imp gal) underwing tanks.[17] Once in service, the extra thrust of the BS.605 rocket engines proved to be unnecessary and thus the rockets were very rarely operated and were eventually removed from all aircraft.[18] South Africa later sought to procure further Buccaneers, but the British Government blocked further orders due to an imposition of a United Nations embargo of South Africa.[19]

Royal Air Force

Buccaneer S.2 with wings folded, a space-saving feature typically employed by carrier aircraft

Blackburn's first attempt to sell the Buccaneer to the Royal Air Force (RAF) occurred in 1957–58, in response to the Air Ministry Operational Requirement OR.339, for a replacement for the RAF's English Electric Canberra's light bombers, with supersonic speed and a 1,000 nmi (1,852 km; 1,151 mi) combat radius; asking for an all-weather aircraft that could deliver nuclear weapons over a long range, operate at high level at Mach 2+ or low level at Mach 1.2, with STOL performance.[20] Blackburn proposed two designs, the B.103A, a simple modification of the Buccaneer S.1 with more fuel, and the B.108, a more extensively modified aircraft with more sophisticated avionics. Against a background of interservice distrust, political issues and the 1957 Defence White Paper, both types were rejected by the RAF, as being firmly subsonic and incapable of meeting the RAF's range requirements, while the B.108, which retained Gyron Junior engines while being 10,000 lb (4,536 kg) heavier than the S.1, would have been severely underpowered, giving poor short-take off performance. The BAC TSR-2 was eventually selected in 1959.[21][22]

After the cancellation of the TSR-2 and then the substitute American General Dynamics F-111K, the Royal Air Force still required a replacement for its Canberras in the low-level strike role, while the planned retirement for the Royal Navy's aircraft carriers meant that the RAF would also need to add a maritime strike capability. It was therefore decided in 1968 that the RAF would adopt the Buccaneer, both by the purchase of new-build aircraft, and by taking over the Fleet Air Arm's Buccaneers as the carriers were retired.[23][24][25] A total of 46 new-build aircraft for the RAF were built by Blackburn's successor, Hawker Siddeley, designated S.2B. These had RAF-type communications and avionics equipment, Martel air-to-surface missile capability, and could be equipped with a bulged bomb-bay door containing an extra fuel tank.[26]

Some Fleet Air Arm Buccaneers were modified in-service to also carry the Martel anti-ship missile. Martel-capable FAA aircraft were later redesignated S.2D. The remaining aircraft became S.2C. RAF aircraft were given various upgrades. Self-defence was improved by the addition of the AN/ALQ-101 ECM pod (also found on RAF's SEPECAT Jaguar GR.3), chaff / flare dispensers and AIM-9 Sidewinder capability. RAF low-level strike Buccaneers could carry out what was known as "retard defence"; four 1,000 lb (454 kg) retarded bombs carried internally could be dropped to provide an effective deterrent against any following aircraft. In 1979, the RAF obtained the American AN/AVQ-23E Pave Spike laser designator pod for Paveway II guided bombs; allowing the aircraft to act as target designators for other Buccaneers, Jaguars, and other strike aircraft.[26] From 1986, No. 208 Squadron RAF then No. 12 (B) Sqn replaced the Martel ASM with the Sea Eagle missile.[27]

Proposed developments

Further developments beyond the Buccaneer S.2 were put forward by Hawker Siddeley in the 1960s and 1970s; however none would be pursued through to production by either the Royal Navy or the Royal Air Force. One such effort was designated as Buccaneer 2*, which was presented as a cost-effective alternative to the TSR-2. The 2* would have featured newer equipment such as head-up displays and onboard computers from the cancelled Hawker Siddeley P.1154 VTOL aircraft, it would have also adopted the same radar system as that being developed for the TSR-2. An even more extensively upgraded model, the Buccaneer 2** was also mooted, which would have been furnished with more sophisticated land-strike capabilities derived from the TSR-2 again. According to Denis Healey, former Secretary of State for Defence 1964-1970, the RAF had been hostile to the Buccaneer due to it being a naval aircraft; it has been further suggested that developing improved Buccaneers for the RAF would weaken arguments against the Royal Navy's planned CVA-01 class aircraft carriers.[28] In one report by the Ministry of Defence, it was claimed that two Buccaneer 2* could do the job of one General Dynamics F-111, for less than half the unit cost.[29]

Design

Overview

A 208 Sqn. RAF Buccaneer S.2B in 1981. Wrap-around camouflage was applied, as it would often be observed while manoeuving at low levels

The Buccaneer was a mid-wing, twin-engine monoplane with a crew of two in a tandem seat arrangement. In service, the Buccaneer was required to regularly fly at sea level in order to avoid radar and enemy air defence systems, often flying long range missions from both aircraft carriers and shore bases.[30] The aircraft had an all-weather flight capability due to the extensive electronics used on the type for navigation and fire-control functions; these systems also greatly assisted the crew during low level flight operations. The Buccaneer was one of the largest aircraft to operate from British aircraft carriers, and continued operating from them until the last conventional carrier was withdrawn in 1978.[31] During its service, the Buccaneer was the backbone of the Navy's ground strike operations, including the critically important nuclear strike mission.[31]

In order to enable the aircraft to perform effectively in the crucial low level flight conditions it was operated under, several major design features were integrated into the Buccaneer. The then-new technology of boundary layer control (BLC) was studied extensively and a fully 'blown' wing was adopted, significantly improving low-speed performance crucial to effective carrier operations.[32] The Buccaneer featured a large internal bomb bay, in which a wide range of conventional and nuclear armaments could be housed, in addition to external weapons mounting points.[33] The fuselage of the aircraft was designed for exceptional strength and durability, and to resist the phenomenon of metal fatigue exacerbated by prolonged flight operations at low altitude.[34][35]

The majority of the rear fuselage's internal area was used to house electronics, such as elements of the radio, equipment supporting the aircraft's radar functionality, and the crew's liquid oxygen life support system; the whole compartment was actively cooled by ram air drawn from the tailfin.[36] For redundancy, the Buccaneer featured dual busbars for electrical systems and three independent hydraulic systems.[37] The aircraft was made easier to control and land via an integrated flight control computer that performed auto-stabilisation and auto pilot functions.[38]

Armament and equipment

Head-on view of a Buccaneer

The Buccaneer had been designed specifically as a maritime nuclear strike aircraft. Its intended weapon was a nuclear air-to-surface missile codenamed Green Cheese, but this weapon's development was cancelled, and in its place was the unguided 2,000 lb (907 kg) Red Beard, which had been developed for the Canberra. Red Beard had an explosive yield in the 10 to 20 kiloton range; and was mounted on a special bomb bay door into which it nested neatly to reduce aerodynamic buffet on the launch aircraft. At low levels and high speeds, traditional bomb bay doors could not be opened safely into the air stream; therefore, doors were developed that rotated into the fuselage to expose the payload; this feature also proved convenient in providing ground-level access.[33]

The bomb bay could also accommodate a 2,000 l (440 imp gal; 528 US gal) ferry tank, a photo-reconnaissance "crate" or a cargo container. The reconnaissance package featured an assortment of six cameras, each at different angles or having different imaging properties, and was only mounted on missions specifically involving reconnaissance activities.[39] The Buccaneer also featured four underwing hard points capable of mounting 1,000 lb (454 kg) bombs, missiles, fuel tanks, or other equipment such as flares;[31] later developments saw the adoption of wing-mounted electronic warfare and laser designator pods.[15] Upon its entry into service, the Buccaneer was capable of carrying practically all munitions then in use by Royal Navy aircraft.[40] It was intended for a pack with twin Aden 30 mm cannons to be developed for the Buccaneer, however the effort was abandoned and the type was never equipped with a gun.[41]

Early on in the Buccaneer's career, conventional anti-ship missions would have employed a mix of iron bombs and rockets at close range. This tactic became increasingly impractical in the face of Soviet anti-aircraft missile advances, thus later Buccaneers were adapted to make use of several missiles capable of striking enemy ships from a distance. The Anglo-French Martel missile was introduced upon the Buccaneer, but its operational experience was described as having been "very temperamental" and its deployment required an attacking Buccaneer to increase its altitude and thus its vulnerability to being attacked itself.[26] An extensive upgrade programme undertaken in the 1980s enabled compatibility with several new pieces of equipment, including the Sea Eagle missile. The Sea Eagle was a self-guiding 'fire-and-forget' missile capable of striking targets at an effective range of 60 miles, five times that of the Martel AJ 168 Anti-Ship Missile and also being significantly more powerful.[42]

Boundary layer control

A depiction of the Buccaneer, the blowing slots visible on the leading edges and the wing flaps are highlighted; these aerodynamic features contribute to the coanda airflow over the wing

In order to dramatically improve aerodynamic performance at slow speeds, such as during take-off and landing, Blackburn adopted a new aerodynamic control technology, known as boundary layer control (BLC). BLC bled high pressure air directly from the engines, which was "blown" against various parts of the aircraft's wing surfaces. A full-span slit along the part of the wing's trailing edge was found to give almost 50% more lift than any contemporary scheme.[32] In order to counteract the severe pitch movements that would otherwise be generated by use of BLC, a self-trimming system was interconnected with the BLC system and additional blowing of the wing's leading edge was also introduced. The use of BLC allowed the use of slats to be entirely discarded in the design.[32]

Before landing, the pilot would open the BLC vents as well as lower the flaps to achieve slow, stable flight. A consequence of the blown wing was that the engines were required to run at high power for low-speed flight in order to generate sufficient compressor gas for blowing. Blackburn's solution to this situation was the adoption of a large air brake; this also allowed an overshooting aircraft to pull away more quickly during a failed landing attempt.[43] The nose cone and radar antenna could also be swung around by 180° to reduce the length of the aircraft in the carrier hangar. This feature was particularly important due to the small size of the aircraft carriers that the Buccaneer typically operated from.[44]

For a carrier take-off, the Buccaneer was pulled tail-down on the catapult with its nosewheel in the air to put the wing at about 11 degrees; it could be launched "hands-off" - the pilot able to leave the tailplane in a neutral position.[45] With blowing on, the Spey 101 output drops to around 9,100 lbf (40,479 N) though about 600 lbf (2,669 N) is recovered from the trailing edge slits which face aft. About 70% of the blown air goes over the flaps and ailerons (which are in a drooped position).[46] Off an aircraft carrier, the minimum launch speed was around 120 knots at 43,000 lb (19,504 kg); from an airfield, the Buccaneer took off in 3,000 feet (914 m) at 144 knots (267 km/h; 166 mph) with blown air, the figures become 3,700 ft (1,128 m) at 175 knots (324 km/h; 201 mph) without blown air.[47]

Fuselage and structure

Close-up of the split airbrake which made up the aircraft's rear fuselage tail cone

The fuselage of the Buccaneer was designed using the area rule technique, which had the effect of reducing aerodynamic drag while travelling at high subsonic and transonic speeds,[34] and gave rise to the characteristic curvy "Coke bottle" shape of the fuselage. The majority of the airframe and fuselage was machined from solid casting to give great strength to endure the stress of low level operations. Considerable effort went into ensuring that metal fatigue would not be a limiting factor of the Buccaneer's operational life even under the formidable conditions imposed of continuous low level flight.[34]

A large air brake was built into the tail cone of the aircraft. The hydraulically operated air brake formed two leaves that could be opened into the airstream to quickly decelerate the aircraft.[48] The style of air brake chosen by Blackburn was highly effective in the dive-attack profile that the Buccaneer was intended to perform, as well as effectively balancing out induced drag from operating the BLC system.[34] It featured a variable incidence tailplane that could be trimmed to suit the particular requirements of low-speed handling or high-speed flight;[33] the tailplane had to be high mounted due to the positioning and functionality of the Buccaneer's air brake.[34]

The wing design of the Buccaneer was a compromise between two requirements: a low aspect ratio for good gust response and high aspect ratio to give good range performance.[49] The small wing was suited to high-speed flight at low altitude; however, a small wing did not generate sufficient lift that was essential for carrier operations. Therefore, BLC was used upon both the wing and tailplane, having the effect of energising and smoothing the boundary layer airflow, which significantly reduced airflow separation at the back of the wing, and therefore decreased stall speed, and increased effectiveness of trailing edge control surfaces including flaps and ailerons.[35]

Operational history

Fleet Air Arm

A Royal Navy Buccaneer S.2 (809 NAS), two Royal Navy Phantom FG.1 (892 NAS) from HMS Ark Royal, over Jacksonville, Florida in 1976, accompanied by three US Navy A-7E Corsair IIs

The Buccaneer entered service with the Fleet Air Arm on 17 July 1962 when 801 NAS was commissioned at RNAS Lossiemouth in Scotland.[50] The Buccaneer quickly replaced the FAA's Supermarine Scimitar, which had previously been performing the naval attack flight duties.[51] In addition to conventional ordnance, the Buccaneer was type-approved for nuclear weapons delivery in 1965; weapons deployed included Red Beard and WE.177 drop-bombs, which were carried internally in a rotating bomb-bay. Two Fleet Air Arm operational squadrons and a training unit were equipped with the Buccaneer S.1. The aircraft was well liked by Navy aircrew for its strength and flying qualities, and the BLC system gave them slower landing speeds than they were accustomed to. The Buccaneers were painted dark sea grey on top and anti-flash white on the undersides.[52]

Buccaneer S.2 landing on HMS Eagle, circa 1971

The Buccaneer S.1's Gyron Junior engines were not powerful enough, and they led to the type's career coming to an abrupt end in December 1970.[12] On 1 December, an S.1 was making a landing approach when an engine surge disrupted the approach and forced the two crewmen to eject. On 8 December, an S.1 on a training flight suffered a turbine failure. The pilot successfully ejected, but due to a mechanical failure the navigator was killed. Subsequent inspections concluded that the Gyron Junior engine was not to a standard now considered to be suited for operations. All surviving S.1s were grounded immediately, and permanently.[53]

By April 1965, intensive trials of the new Buccaneer S.2 had begun, with the type entering operational service with the FAA later that year. The improved S.2 type proved its value when it became the first FAA aircraft to make a non-stop, unrefuelled crossing of the Atlantic Ocean.[54] On 28 March 1967, Buccaneers from RNAS Lossiemouth bombed the shipwrecked supertanker Torrey Canyon off the western coast of Cornwall to make the oil burn in order to avoid an environmental disaster. In 1972, Buccaneers of 809 Naval Air Squadron operating from HMS Ark Royal took part in a 1,500 mile mission to show a military presence over British Honduras (modern day Belize) shortly before its independence, to deter a possible Guatemalan invasion in pursuit of their territorial claims over the country.[55]

The Buccaneer also participated in regular patrols and exercises in the North Sea, practising the type's role if war had broken out with the Soviet Union. During the 1960s and 1970s, the Royal Navy standardised the air wings operating from their carriers around the Phantom, Buccaneer, and the Fairey Gannet aircraft.[56] A total of six FAA squadrons were equipped with the Buccaneer: 700B/700Z (Intensive Flying Trials Unit), 736 (training), 800, 801, 803 and 809 Naval Air Squadrons. Buccaneers were embarked on HMS Victorious, Eagle, Ark Royal and Hermes.[57]

The Buccaneer was retired from Fleet Air Arm service with the decommissioning in 1978 of the Ark Royal, the last of the navy's fleet carriers.[56] Their retirement was part of a larger foreign policy agenda that was implemented throughout the 1970s. Measures such as the withdrawal of most British military forces stationed East of Suez were viewed as reducing the need for aircraft carriers and fixed-wing naval aviation in general. The decision was highly controversial, particularly to those within the Fleet Air Arm.[58] The Royal Navy would replace the naval strike capability of the Buccaneer with the smaller V/STOL-capable British Aerospace Sea Harrier, which were operated from their Invincible class aircraft carriers.[59]

Royal Air Force

After the F-111K was cancelled in early 1968, due to the programme suffering serious cost escalation and delays, the RAF was forced to look for a replacement that was available and affordable, and reluctantly selected the Buccaneer.[60] The first RAF unit to receive the Buccaneer was 12 Squadron at RAF Honington in October 1969, in the maritime strike role, at first equipped with ex-Royal Navy Buccaneers S.2As.[61] This was to remain a key station for the type as 15 Squadron equipped with the Buccaneer the following year, before moving to RAF Laarbruch in 1971, and the RAF Buccaneer conversion unit, 237 OCU, forming at Honington in March 1971.[61][62] The Buccaneer was seen as an interim solution, but delays in the Panavia Tornado programme would ensure that the "interim" period would stretch out, and the Buccaneer would remain in RAF service for over two decades, long after the FAA had given up the type.[60]

With the phased withdrawal of the Royal Navy's carrier fleet during the 1970s, the Fleet Air Arm's Buccaneers were transferred to the RAF, which had taken over the maritime strike role.[63] 62 of the 84 S.2 aircraft were eventually transferred, redesignated S.2A;[60] some of these were later upgraded to S.2B standard. Ex-FAA aircraft equipped 16 Squadron, joining 15 Squadron at RAF Laarbruch, and 208 Squadron at Honington; the last ex-FAA aircraft went to 216 Squadron.[61]

RAF Buccaneer S.2B at Faro Airport, Portugal, in 1987

From 1970, with 12 Squadron initially, followed by 15 Squadron, 16 Squadron, No. 237 OCU, 208 Squadron and 216 Squadron, the RAF Buccaneer force re-equipped with WE.177 nuclear weapons. At peak strength Buccaneers equipped six RAF squadrons, although for one year only. A more sustained strength of five squadrons was made up of three squadrons (15 Squadron, 16 Squadron, 208 Squadron) plus No. 237 OCU (a war reserve or Shadow squadron) all assigned to Supreme Allied Commander Europe (SACEUR) for land strike duties in support of land forces opposing Warsaw Pact land forces on the Continent, plus one squadron (12 Squadron) assigned to SACLANT for maritime strike duties.

Opportunities for Buccaneer squadrons to engage in realistic training were limited, and so when the US began their Red Flag military exercises at Nellis Air Force Base in 1975, the RAF became keenly interested. The first Red Flag in which RAF aircraft were involved was in 1977, with 10 Buccaneers and two Avro Vulcan bombers participating. Buccaneers would be involved in later Red Flags through to 1983, and in 1979 also participated in the similar Maple Flag exercise over Canada. The Buccaneer proved impressive with its fast low-level attacks, which were highly accurate despite the aircraft's lack of terrain-following radar and other modern avionics. They were able to penetrate adversary defences, and were credited with "kills" on defending fighters using AIM-9 Sidewinder air-to-air missiles.

During the 1980 Red Flag exercises, one of the participating Buccaneers lost a wing in mid-flight due to a fatigue-induced crack and crashed, killing its crew. The entire RAF Buccaneer fleet was grounded in February 1980, subsequent investigation discovered serious metal fatigue problems to be present on numerous aircraft.[64] A total of 60 aircraft were selected to receive new spar rings while others were scrapped; the nascent 216 Squadron was subsequently disbanded due to a resulting reduction in aircraft numbers.[65] Later the same year, the UK-based Buccaneer squadrons moved to RAF Lossiemouth.

Buccaneer S.2B at Naval Air Weapons Station China Lake, United States, in 1981

In 1983, six Buccaneer S.2s were sent to Cyprus to support British peacekeepers in Lebanon as a part of Operation Pulsator. On 11 September 1983, two of these aircraft flew low over Beirut, their presence intended to intimidate insurgents rather than inflict damage directly.[65][66] After 1983, the land strike duties were mostly reassigned to the Tornado aircraft then entering service, and two Buccaneer squadrons remaining (12 Squadron, and 208 Squadron) were then assigned to SACLANT for maritime strike duties. Only the 'Shadow Squadron', No. 237 OCU, remained assigned to the role of land strike on long term assignment to SACEUR, No. 237 was also to operate as a designator for Jaguar ground strike aircraft in the event of conflict.[67] The Buccaneer stood down from its reserve nuclear delivery duties in 1991.

The Buccaneer took part in combat operations during the 1991 Gulf War. It had been anticipated that Buccaneers might need to perform in the target designation role, although early on this had been thought to be "unlikely".[67] Following a short-notice decision to deploy, the first batch of six aircraft were readied to deploy in under 72 hours, including the adoption of desert camouflage and additional equipment, and departed from Lossiemouth for the Middle Eastern theatre early on 26 January 1991.[67] In theatre, it became common for each attack formation to comprise four Tornados and two Buccaneers; each Buccaneer carried a single laser designator pod and acted as backup to the other in the event of an equipment malfunction.[67] The first combat mission took place on 2 February, operating at a medium altitude of roughly 18,000 feet, and successfully attacked the As Suwaira Road Bridge.[67]

RAF Buccaneer inflight in 1994

Operations continued on practically every available day; missions did not take place at night as the laser pod lacked night-time functionality. Approximately 20 road bridges were destroyed by Buccaneer-supported missions, restricting the Iraqi Army's mobility and communications.[67] In conjunction with the advance of Coalition ground forces into Iraq, the Buccaneers switched to airfield bombing missions, targeting bunkers, runways and any aircraft sighted; following the guidance of the Tornado's laser-guided ordnance, the Buccaneers would commonly conduct dive-bombing runs upon remaining targets of opportunity in the vicinity.[67] In one incident on the 21 February 1991, a pair of Buccaneers destroyed two Iraqi transport aircraft on the ground at Shayka Mazhar airfield.[67] The Buccaneers flew 218 missions during the Gulf War, in which they designated targets for other aircraft and dropped 48 laser-guided bombs.[68]

It had originally been planned for the Buccaneer to remain in service until the end of the 1990s, having been extensively modernized in a process lasting up to 1989; the end of the Cold War stimulated major changes in British defence policy, many aircraft being deemed to be surplus to requirements. It was decided that a number of Panavia Tornado GR1s would be modified for compatibility with the Sea Eagle missile and take over the RAF's maritime strike mission, and the Buccaneer would be retired early.[69] Squadrons operating the Buccaneer were quickly re-equipped with the Tornado; by mid-1993, 208 Squadron was the sole remaining operator of the type.[65] The last Buccaneers were withdrawn in March 1994 when 208 Squadron disbanded.[70]

South African Air Force

Buccaneer of 24 Squadron SAAF

South Africa was the only country other than the UK to operate the Buccaneer, where it was in service with the South African Air Force (SAAF) from 1965 to 1991. In January 1963, even before the S.2 entered squadron service, South Africa had purchased 16 Spey-powered Buccaneers. The order was part of the Simonstown Agreement, in which the UK obtained use of the Simonstown naval base in South Africa in exchange for maritime weapons.[71] An order for a further 20 Buccaneers was blocked by British Prime Minister Harold Wilson's government.[72]

In the maritime strike role, SAAF Buccaneers were armed with the French radio-guided AS-30 missile. In March 1971, Buccaneers fired 12 AS-30s at a stricken tanker, the Wafra, but failed to sink it. The AS-30 missile was also used in ground attacks for effective precision strikes, one example being in 1981 when multiple missiles were used to strike a number of radar stations in southern Angola.[73] For overland attack, the SAAF Buccaneers carried up to four 450 kg (1,000 lb) bombs in the rotary bomb bay, and four bombs, flares, or SNEB rocket packs on the underwing stores pylons. During the 1990s, it was revealed that South Africa had manufactured six air-deliverable tactical nuclear weapons between 1978 and 1993. These nuclear weapons, containing highly enriched uranium with an estimated explosion yield of 10-18 kilotons, were designed for delivery by either the Buccaneer or the English Electric Canberra bomber.[74]

SAAF Buccaneers saw active service during the South Africa Border War, frequently flying over Angola and Namibia and launching attacks upon SWAPO guerilla camps in the 1970s and 1980s. During a ground offensive, Buccaneers would often fly close air support (CAS) missions armed with anti-personnel rockets, as well as performing bombardment operations.[75] Buccaneers played a major role in the Battle of Cassinga in 1978, being employed in repeated strikes upon armoured vehicles, including enemy tanks, and to cover the withdrawal of friendly ground forces from the combat zone.[76] The Buccaneer was capable of carrying heavy load outs over a long range and could remain in theatre for longer than other aircraft, making it attractive for the CAS role.[72] Only five aircraft remained by the time the Buccaneer was retired from service in 1991.[72]

Others

Early in the Buccaneer programme, the US Navy had expressed mild interest in the aircraft, but quickly moved on to the development of their comparable Grumman A-6 Intruder. The West German Navy showed a greater interest and considered replacing their Hawker Sea Hawks with the type, although they eventually decided on the Lockheed F-104G for their maritime strike requirement following the bribing of West German government officials in the Lockheed bribery scandals.

Variants

A 700Z Sqn Buccaneer S.1 at RNAS Lossiemouth in 1961
A Buccaneer S.2 on the deck of HMS Eagle in the Mediterranean Sea, 1970
Blackburn NA.39
Pre-production build of 9 prototype NA.39 aircraft and a development batch of 14 S.1s ordered 2 June 1955.[7]
Buccaneer S.1
First production model, powered by de Havilland Gyron Junior 101 turbojet engines. 40 built ordered on 25 September 1959, built at Brough and towed to Holme-on-Spalding Moor for first flight and testing. First aircraft flown on 23 January 1962. A further ten S.1 aircraft ordered in September 1959 were completed as S.2s.
Buccaneer S.2
Development of the S.1 with various improvements and powered by the more powerful Rolls-Royce Spey turbofan engines. From 1962, 10 were built by Blackburn Aircraft Ltd. and 74 by Hawker Siddeley Aviation Ltd.[77]
Buccaneer S.2A
Ex-Royal Navy S.2 aircraft reworked for RAF.[78]
Buccaneer S.2B
Variant of S.2 for RAF squadrons. Capable of carrying the Martel anti-radar or anti-shipping missile. 46 built between 1973 and 1977, plus three for Ministry of Defence weapons trials work.[79]
Buccaneer S.2C
Royal Navy aircraft upgraded to S.2A standard.[26]
Buccaneer S.2D
Royal Navy aircraft upgraded to S.2B standard, operational with Martels from 1975.[26]
Buccaneer S.50
Variant for South Africa. Wings could be folded but folding was no longer powered. Aircraft could be equipped with two single-stage rockets (see RATO) to assist take-off from hot-and-high airfields like that of AFB Waterkloof in Pretoria, where the type was mostly based.[80]

Operators

Retired S.50 at the South African National Museum of Military History
Preserved S.2B in 1991 Gulf War colours at Kemble Airport, England
Buccaneer S2B in A&AEE colours at Kemble Airport, England
 South Africa
 United Kingdom

Civil operators

At one point, a total of three privately owned Buccaneers were being operated at Thunder City.[90]

Survivors

In the United Kingdom Buccaneer S.2 XX885 is being rebuilt to flying condition by Hawker Hunter Aviation. It was granted UK CAA permission to fly in April 2006.[91][92]

A number of Buccaneers in the UK are in fast taxiing condition and several more are being rebuilt to taxiing condition.[93][94]

Specifications (Buccaneer S.2)

External video
Documentary focused on the Buccaneer
RAF Buccaneer performing display flight in 1993
Footage of Buccaneer activities during US Red Flag exercise

Data from The Observer's Book of Aircraft,[95] Aeroguide 30: Blackburn Buccaneer S Mks 1 and 2[96]

General characteristics

Performance

Armament

See also

Aircraft of comparable role, configuration and era
Related lists

References

Citations

  1. Jackson, Robert (2011). Aircraft from 1914 to the present day. p. 137. ISBN 978-1-907446-02-3.
  2. Jefford et al. 2005, pp. 103-104.
  3. Chesneau 2005, pp. 5–6.
  4. English Aeroplane April 2012, p. 72.
  5. Jackson 1968, p. 480.
  6. Jackson 1968, p. 481.
  7. 1 2 Chesneau 2005, pp. 6–8.
  8. Jefford et al. 2005, p. 104.
  9. Green 1964, p. 430.
  10. Calvert and Donald Wings of Fame Volume 14, p. 48.
  11. Bishop and Chant 2004, p. 162.
  12. 1 2 Jackson 1968, pp. 487–488.
  13. Calvert and Donald Wings of Fame Volume 14, pp. 49–50.
  14. Flight International 11 January 1962, p. 38.
  15. 1 2 Jefford et al. 2005, p. 105.
  16. "British to sell jets to Africa." Spokan Daily Chronicle, 12 October 1962. p. 10.
  17. Calvert and Donald Wings of Fame Volume 14, pp. 51–53.
  18. Van Pelt 2012, p. 180.
  19. Laming 1996, pp. 11–12.
  20. Wynn 1997, p. 503.
  21. Buttler Air Enthusiast September/October 1995, pp. 12–13, 15–16, 21–23.
  22. Boot Aeroplane Monthly March 1995, p. 29.
  23. Wynn Flight International 11 February 1971, p. 203.
  24. Calvert and Donald Wings of Fame Volume 14, pp. 59–60.
  25. Boot 1990, pp. 64–65.
  26. 1 2 3 4 5 Chesneau 2005, p. 16.
  27. "RAF plans Buccaneer update." Flight International, 4 February 1984. p. 316.
  28. Hampshire 2013, p. 60.
  29. Hampshire 2013, pp. 60–61.
  30. Polmar 2006, pp. 183–184.
  31. 1 2 3 Polmar 2006, p. 184.
  32. 1 2 3 Gunston 1962, p. 469.
  33. 1 2 3 Winchester 2006, p. 31.
  34. 1 2 3 4 5 Gunston 1962, p. 468.
  35. 1 2 Laming 1996, p. 11.
  36. Gunston 1962, pp. 475, 478.
  37. Gunston 1962, p. 477.
  38. Gunston 1962, p. 479.
  39. Polmar 2006, p. 186.
  40. Gunston 1962, p. 478.
  41. Calvert and Donald Wings of Fame Volume 14, p. 14.
  42. Jefford et al. 2005, pp. 113-114.
  43. Harding 2004, p. 85.
  44. Burns and Edwards 1971, pp. 56–58.
  45. Burns, J.G.; Edwards, M. (14 January 1971). "Blow, Blow Thou BLC Wind". Flight International. Flight Global. 99 (3227): 56–59. Retrieved 31 March 2016.
  46. Flight International 14 January 1971, p. 58.
  47. Burns and Edwards 1971, pp. 58–59.
  48. Boot Aeroplane Monthly March 1995, p. 26.
  49. Flight International 14 January 1971, p. 56.
  50. "Buccaneer Enters Service Today." Times [London, England], 17 July 1962: 6 via The Times Digital Archive, 3 May 2013.
  51. Chesneau 2005, p. 9.
  52. Chesneau 2005, p. 24.
  53. Calvert and Donald Wings of Fame Volume 14, p. 62.
  54. Chesneau 2005, p. 12.
  55. White 2009, p. 242.
  56. 1 2 Bishop and Chant 2004, p. 115.
  57. Bishop and Chant 2004, pp. 65, 71–72, 74.
  58. Jefford et al. 2005, p. 61.
  59. Ford, Terry. "Sea Harrier – A New Dimension." Aircraft Engineering and Aerospace Technology, Volume 53, Issue 6, 1981.
  60. 1 2 3 Laming 1996, p. 12.
  61. 1 2 3 Chesneau 2005, p. 21.
  62. English Aeroplane April 2012, pp. 81–82.
  63. Jefford et al. 2005, pp. 105-106.
  64. Chesneau 2005, pp. 16, 22.
  65. 1 2 3 Chesneau 2005, p. 22.
  66. Calvert and Donald Wings of Fame Volume 14, p. 84.
  67. 1 2 3 4 5 6 7 8 Cope, Bill. "Gulf War Buccaneer Operations." Royal Air Force, Retrieved: 8 May 2013.
  68. Gething 1994, pp. 143–144.
  69. Jefford et al. 2005, p. 115.
  70. Jefford 2001, p. 72.
  71. "Simonstown Agreement." Hansard, 8 February 1967.
  72. 1 2 3 Caygill 2008, p. 70.
  73. "SA-30 Air-to-Surface Missile." SAAF Museum, Retrieved: 19 May 2013.
  74. "Nuclear Threat Initiative (NTI)." Nuclear Disarmament South Africa. Retrieved: 11 June 2012.
  75. Steenkamp 2006, pp. 151-153, 164.
  76. Steenkamp 2006, pp. 178-179, 187.
  77. Chesneau 2005, pp. 11–12.
  78. Chesneau 2005, p. 14.
  79. Chesneau 2005, pp. 15–16.
  80. Chesneau 2005, p. 18.
  81. Calvert and Donald Wings of Fame Volume 14, p. 103.
  82. Calvert and Donald Wings of Fame Volume 14, p. 98.
  83. 1 2 Calvert and Donald Wings of Fame Volume 14, p. 99.
  84. 1 2 Calvert and Donald Wings of Fame Volume 14, p. 100.
  85. Calvert and Donald Wings of Fame Volume 14, p. 101.
  86. Calvert and Donald Wings of Fame Volume 14, p. 94.
  87. 1 2 Calvert and Donald Wings of Fame Volume 14, p. 95.
  88. 1 2 Calvert and Donald Wings of Fame Volume 14, p. 96.
  89. Calvert and Donald Wings of Fame Volume 14, p. 97.
  90. "BAe 2 Buccaneer." ThunderCity, 2010
  91. White, Andy. "CAA Approval to Fly! XX885 (G-HHAA) To Return to the Sky." blackburn-buccaneer.co.uk, 12 April 2006. Retrieved: 7 October 2009.
  92. Scott, Richard "Hawker Hunter Aviation's new model air force." Flight International, 17 December 2007.
  93. White, Andy. "XX894." blackburn-buccaneer.co.uk, 5 April 2009. Retrieved: 7 October 2009.
  94. White, Andy. "XW544." blackburn-buccaneer.co.uk, 5 April 2009. Retrieved: 7 October 2009.
  95. Green 1968, p. 136.
  96. Chesneau 2005, p. 13.

Bibliography

  • Bishop, Chris and Chris Chant. Aircraft Carriers: The World's Greatest Naval Vessels and Their Aircraft. Minneapolis, Minnesota: Zenith Imprint, 2004. ISBN 0-76032-005-5.
  • Boot, Roy. "Father of the Buccaneer". Aeroplane Monthly, Vol. 23, No. 3, March 1995,. pp. 24–29. ISSN 0143-7240.
  • Boot, Roy. From Spitfire to Eurofighter: 45 Years of Combat Aircraft Design. Shrewsbury, Shropshire, UK: Airlife Publishing Ltd., 1990. ISBN 1-85310-093-5.
  • Burns, J.G. and M. Edwards. "Blow, blow thou BLC wind". Flight International Vol. 99, No. 3227, 14 January 1971, pp. 56–59.
  • Buttler, Tony. "Strike Rivals: The ones that 'lost' when the TSR.2 'won'." Air Enthusiast, No. 59, September/October 1995, pp. 12–23.
  • Calvert, Denis J. and David Donald. "Blackburn Buccaneer". Wings of Fame, Volume 14. London: Aerospace Publishing, 1999. pp. 34–103. ISBN 1-86184-029-2. ISSN 1361-2034.
  • Caygill, Peter. "Flying the Buccaneer: Britain's Cold War Warrior." Casemate Publishers, 2008. ISBN 1-84415-669-9.
  • Chesneau, Roger. "Aeroguide 30 - Blackburn Buccaneer S Mks 1 and 2". Suffolk, UK: Ad Hoc Publications, 2005. ISBN 0-94695-840-8.
  • English, Malcolm. "Database: Blackburn (Hawker Siddeley) Buccaneer". Aeroplane, Vol. 40, No. 4, April 2012, pp. 69–86.
  • Gething, Michael J. "The Buccaneer Bows Out: Valediction for the Sky Pirate". Air International, Vol. 46, No 3, March 1994, pp. 137–144. Stamford, UK: Key Publishing. ISSN 0306-5634.
  • Green, William. Aircraft Handbook. London: Macdonald & Co. (Publishers) Ltd., 1964.
  • Green, William. The Observer's Book of Aircraft. London: Frederick Warne & Co. Ltd., 1968.
  • Gunston, Bill. "Buccaneer - An Outstanding Strike Aeroplane". Flight International, Vol. 83, No. 2821, 4 April 1963, pp. 467–478.
  • Hampshire, Edward. From East of Suez to the Eastern Atlantic: British Naval Policy 1964-70. Surrey, UK: Ashgate Publishing, 2013. ISBN 1-40946-614-0.
  • Harding, Richard. The Royal Navy 1930-1990: Innovation and Defense. London: Routledge, 2004. ISBN 0-20333-768-9.
  • Jackson, A.J. Blackburn Aircraft since 1909. London: Putnam, 1968. ISBN 0-370-00053-6.
  • Jefford, Wing Commander C.G., MBE, BA, RAF (Retd). RAF Squadrons, a Comprehensive Record of the Movement and Equipment of all RAF Squadrons and their Antecedents since 1912. Shrewsbury, Shropshire, UK: Airlife Publishing, 2001. ISBN 1-84037-141-2.
  • Jefford, C.G (ed.). "Seminar - Maritime Operations." Royal Air Force Historical Society, 2005. ISSN 1361-4231.
  • Laming, Tim. Fight's On!: Airborne with the Aggressors. Zenith Imprint, 1996. ISBN 0-76030-260-X.
  • Polmar, Norman. Aircraft Carriers: A History of Carrier Aviation and Its Influence on World Events, Volume I: 1909-1945. Herndon, Virginia: Potomac Books, 2006. ISBN 1-57488-663-0.
  • Steenkamp, Willem. Borderstrike!: South Africa Into Angola 1975-1980 (3rd ed.). Durban, South Africa: Just Done Productions Publishing, 2006first edition 1985. ISBN 978-1-920169-00-8.
  • Van Pelt, Michel. Rocketing Into the Future: The History and Technology of Rocket Planes. New York: Springer, 2012. ISBN 1-46143-200-6.
  • White, Rowland. Phoenix Squadron: HMS Ark Royal, Britain's Last Topguns and the Untold Story of Their Most Dramatic Mission. London: Bantam Press, 2009. ISBN 978-0-59305-451-2.
  • Winchester, Jim, ed. "Blackburn Buccaneer." Military Aircraft of the Cold War (The Aviation Factfile). London: Grange Books plc, 2006. ISBN 1-84013-929-3.
  • Wynn, Humphrey. "RAF Buccaneers". Flight International, 11 February 1971, Vol. 99 No. 3231, pp. 202–207.
  • Wynn, Humphrey. The RAF Strategic Nuclear Deterrent Forces: Their Origins, Roles and Deployment, 1946-1969: a Documentary History. London: HMO, 1997. ISBN 0-11772-833-0.

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