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Red Dean, a rainbow code name, was a large
air-to-air missile The newest and the oldest member of Rafael's Python family of AAM for comparisons, Python-5 (displayed lower-front) and Shafrir-1 (upper-back) An air-to-air missile (AAM) is a missile fired from an aircraft for the purpose of destroying a ...
developed for the Royal Air Force during the 1950s. Originally planned to use an active radar seeker to offer all-aspect performance and true fire-and-forget engagements, the valve-based electronics demanded a missile of prodigious size. Folland Aircraft won the development contract in February 1950 to arm the Gloster Meteor, weighing in at about estimated . After some initial progress, chief engineer
Teddy Petter William Edward Willoughby "Teddy" Petter (8 August 1908, Highgate in Middlesex – 1 May 1968, Béruges) was a British aircraft designer. He is noted for Westland aircraft, Westland's wartime aeroplanes, the English Electric Canberra, Canberra, ...
seemed uninterested in pursuing the design and the contract was cancelled in November 1951. In July 1952 it was picked up by Vickers, who had already experimented with a number of large missiles. Their design was too large for Meteor, so it was instead designed for the emerging Gloster Javelin. Problems with the
General Electric Company The General Electric Company (GEC) was a major British industrial conglomerate involved in consumer and defence electronics, communications, and engineering. The company was founded in 1886, was Britain's largest private employer with over 250 ...
(GEC) X-band seeker led to the missile having to be enlarged several times, eventually reaching a massive , which made it too heavy for the Javelin. The weapon was then selected to arm the upcoming Thin-Wing Javelin. Continued problems led Vickers to completely redesign it, abandoning the GEC seeker in favour of a simpler
semi-active radar homing Semi-active radar homing (SARH) is a common type of missile guidance system, perhaps the most common type for longer-range Air-to-air missile, air-to-air and surface-to-air missile systems. The name refers to the fact that the missile itself is ...
. This reduced the weight to and finally to with transistorization. When British intelligence learned of new Soviet
supersonic Supersonic speed is the speed of an object that exceeds the speed of sound ( Mach 1). For objects traveling in dry air of a temperature of 20 °C (68 °F) at sea level, this speed is approximately . Speeds greater than five times ...
bombers, the Thin-Wing Javelin was cancelled in 1956 in favour of Operational Requirement F.155. Unsuited to these designs, Red Dean was cancelled in June. A new weapon dedicated to this role began in 1955 as
Red Hebe Red Hebe was a large active radar homing air-to-air missile developed by Vickers for the Royal Air Force's Operational Requirement F.155 interceptor aircraft. It was a development of the earlier Red Dean, which was not suitable for launch by the ...
. Also developed by Vickers, Red Hebe suffered from the same growth in weight and size and was ultimately cancelled in 1957 along with F.155.


History


Red Hawk

By the late World War II era each of the British forces had ongoing missile development programs. Among these was the January 1945 Air Staff Operational Requirement 1056 for an
air-to-air missile The newest and the oldest member of Rafael's Python family of AAM for comparisons, Python-5 (displayed lower-front) and Shafrir-1 (upper-back) An air-to-air missile (AAM) is a missile fired from an aircraft for the purpose of destroying a ...
intended as an anti-bomber weapon. OR.1056 called for a weapon able to attack from any angle using either radar or
infrared homing Infrared homing is a passive weapon guidance system which uses the infrared (IR) light emission from a target to track and follow it seamlessly. Missiles which use infrared seeking are often referred to as "heat-seekers" since infrared is radi ...
, the radar version using the signals from the
AI Mk. IX radar Radar, Airborne Interception, Mark VIII, or AI Mk. VIII for short, was the first operational microwave-frequency Airborne Interception radar, air-to-air radar. It was used by Royal Air Force night fighters from late 1941 until the end of World War ...
being installed at that time. This project was assigned the
Ministry of Supply The Ministry of Supply (MoS) was a department of the UK government formed in 1939 to co-ordinate the supply of equipment to all three British armed forces, headed by the Minister of Supply. A separate ministry, however, was responsible for aircr ...
(MoS) rainbow code "Red Hawk". By 1947 all of the missile projects were suffering from a lack of funding and manpower as many of the projects drew on the same pool of talent. The MoS decided to rationalize development by centralizing it at the
Royal Aircraft Establishment The Royal Aircraft Establishment (RAE) was a British research establishment, known by several different names during its history, that eventually came under the aegis of the Ministry of Defence (United Kingdom), UK Ministry of Defence (MoD), bef ...
(RAE). After much debate, the MoS chose four programs to continue; the Royal Navy's
surface-to-air missile A surface-to-air missile (SAM), also known as a ground-to-air missile (GTAM) or surface-to-air guided weapon (SAGW), is a missile designed to be launched from the ground to destroy aircraft or other missiles. It is one type of anti-aircraft syst ...
Seaslug, a similar design for the Royal Air Force and British Army, the Navy's Blue Boar television guided anti-ship bomb, and Red Hawk. Among the early proposals for the Red Hawk design was one from Gloster Aircraft, received in October 1947. This was a large missile in aircraft form, similar to a very small
swept wing A swept wing is a wing that angles either backward or occasionally forward from its root rather than in a straight sideways direction. Swept wings have been flown since the pioneer days of aviation. Wing sweep at high speeds was first investigate ...
fighter. The missile would have to be lowered beneath the aircraft on a trapeze before launch in order for the seeker to pick up the signal from the fighter's radar. The RAE were not impressed and developed their own preferred design, consisting of a bullet-shaped unpowered "dart" that was launched up to speed by drop-off solid fuel rocket motors. Continued study demonstrated the Red Hawk system was simply beyond the
state of the art The state of the art (sometimes cutting edge or leading edge) refers to the highest level of general development, as of a device, technique, or scientific field achieved at a particular time. However, in some contexts it can also refer to a level ...
. For a head-on attack, the aircraft would be approaching each other while the missile flew. In order for the weapon to be launched from far enough to keep the fighter outside of the bomber's fire during the missile's flight, the radio energy needed for tracking would demand a very powerful radar or a very large antenna to focus it enough. Neither appeared practical in the near term. In August 1948, the Air Ministry released a simpler specification for a weapon capable of tail-chase approaches against propeller-powered bombers like the Tupolev Tu-4. This watered-down specification was given the nick-name "Pink Hawk". This was eventually awarded to Fairey Aviation under the official rainbow code "Blue Sky" and emerged as the Fireflash.


Red Dean emerges

Although Pink Hawk was ultimately successful in building a cut-down version of Red Hawk, the original requirement remained unfilled. In early 1951 the RAE and Air Ministry felt that the emerging technology of infrared seeking had progressed enough to once again take up the development of a true all-aspect weapon. This was released as the joint Naval/Air Staff Target 1056 which had the double duty of both a fighter weapon as well as a bomber self-defence weapon. On 18 June 1951, Group Captain Scragg concluded that Red Hawk would not be available for some time, and suggested that it be re-directed as a pure fighter weapon. This led to Operational Requirement 1105, which was given the name "Red Dean".This was intended for use by two-seat fighters, notably the F.153 Thin-Wing Javelin which was then under development, but also the De Havilland Sea Vixen and
Supermarine Swift The Supermarine Swift is a British single-seat jet fighter aircraft that was operated by the Royal Air Force (RAF). It was developed and manufactured by Supermarine during the 1940s and 1950s. The Swift featured many of the new jet age innova ...
. Although not mentioned specifically, illustrations from this era show the missile mounted on the Gloster Meteor as well. The OR called for a missile that could be carried in pairs by any aircraft of and up, without seriously affecting its performance. The primary targets were bombers and fighter bombers flying up to Mach 0.95 and maximum altitudes as high as 60,000 ft. Fighters were suitable targets, if possible, but only if it did not delay the program. It had to be able to attack from any direction, using an active radar seeker so the fighter did not have to continue the approach after launch. It needed to have a probability of kill against a bomber of at least 50%.


Folland gives up

The contract for Red Dean was initially won by Folland Aircraft, largely on the basis of
Teddy Petter William Edward Willoughby "Teddy" Petter (8 August 1908, Highgate in Middlesex – 1 May 1968, Béruges) was a British aircraft designer. He is noted for Westland aircraft, Westland's wartime aeroplanes, the English Electric Canberra, Canberra, ...
's mid-1951 contract tender. Petter had a streak of successes at
English Electric Aviation N.º UIC: 9094 110 1449-3 (Takargo Rail) The English Electric Company Limited (EE) was a British industrial manufacturer formed after the Armistice of 11 November 1918, armistice of World War I by amalgamating five businesses which, during th ...
, including the
Canberra Canberra ( ) is the capital city of Australia. Founded following the federation of the colonies of Australia as the seat of government for the new nation, it is Australia's largest inland city and the eighth-largest city overall. The ci ...
and Lightning, but moved to Folland in February 1950 to develop a small and low-cost fighter, which became the Folland Gnat. Folland was already involved in missile development with the RAE in the RTV.2 test vehicle, which began to suffer from delays and cost overruns. At the same time, the seeker from EKCO began to grow in weight. Although the program had progressed to the point of fitting dummy missiles to the Meteor for carriage trials, Petter apparently lost interest in the project and wrote to the RAE that he felt Folland was not the right company to be developing the missile. The Air Staff cancelled the contract in November 1951. Through this period the RAE was also growing concerned about the range of the missiles using solid fuel rockets. They considered a series of designs using ramjet power beginning in 1953. One advantage was that the missile engines could be used for additional aircraft thrust during takeoff or high-speed dash, and then topped off with fuel from the fighter's fuel tanks. Unfortunately, they found that when the weapon would have to be launched subsonically it would require a small rocket to get it up to the ramjet's ignition speed of Mach 1.3, adding to the design. The decision was made to continue with a pure-rocket.


Vickers takes over

In July 1952, Vickers was asked to provide design studies for the Red Dean requirement. They received a development contract in March 1953. At the time, the design was to weigh and be powered by four Buzzard motors from the
Propellant and Explosives Research and Manufacturing Establishment The Rocket Propulsion Establishment at Westcott, Buckinghamshire on the site of the former RAF Westcott has made a number of notable contributions in the field of rocket propulsion, including input on the rocket design for the Blue Streak missi ...
. It was initially intended to arm the night fighter versions of the Meteor, but ground clearance was not great enough and so it was changed instead to two new dedicated night fighters then under development, which became the Gloster Javelin and De Havilland Sea Venom. This initial work led to an official requirement in June 1955, known to the Air Ministry as OR.1105 and the Admiralty as AW.281, for an "active radar homing all-round attack weapon system operating on collision course tactics." The
X band The X band is the designation for a band of frequencies in the microwave radio region of the electromagnetic spectrum. In some cases, such as in communication engineering, the frequency range of the X band is rather indefinitely set at approxim ...
guidance radar from the
General Electric Company The General Electric Company (GEC) was a major British industrial conglomerate involved in consumer and defence electronics, communications, and engineering. The company was founded in 1886, was Britain's largest private employer with over 250 ...
(GEC) soon ran into problems, delaying the possible in-service date. This led to it being redirected once again, this time to the F.153 Thin-Wing Javelin that was then under design. Ground launched testing began with 40% scale models known as WTV.1 to test the guidance system, boosted off the ground using three large Demon rocket motors. This led to the full-sized WTV.2, also ground-launched, which included extensive telemetry. By this time, the design had grown several times and was now long and weighed a massive . Some of this was due to the enlarged warhead, which was required due to the low accuracy of the seeker. This increase in size and weight demanded a change in the rocket motor, to a Falcon. In spite of the larger motor, range was a very short .


Testing

For air testing, Canberra WD956 was delivered to Wisley Airfield near the Vickers plant on 8 August 1951. It was then sent to RAF Hurn for fitting with launch rails. It returned to Wisely and made its first carriage test flight with motor-less WTV.2 missiles in October 1953 and follow-up tests in May 1954 to test the jettison system. A second aircraft, WD942, was similarly modified and sent to Woomera awaiting the missiles. Meanwhile, to test the effects of the rocket motor on the wing of the aircraft, a test rig was constructed consisting of a section of a Canberra wing mounted in an A-frame system that could be rotated to change the simulated
angle of attack In fluid dynamics, angle of attack (AOA, α, or \alpha) is the angle between a reference line on a body (often the chord line of an airfoil) and the vector representing the relative motion between the body and the fluid through which it is m ...
. "Live" testing began in June 1954 with semi-complete designs, the WRV.4C containing the seeker and the WTV.4E with the proposed proximity fuse. On the first live test flight, the shear pin that held the missile to the rail was noted to be too strong; when the missile motor fired its thrust was enough, even briefly, to cause the aircraft to yaw significantly. On the second flight, the pin was improperly installed and failed to shear at all. The resulting yaw caused the plane to flip over on its back before the missile finally broke free and the aircraft lost almost 20,000 ft altitude while recovering. A delay ensued while a new latching system was developed. A further delay ensued after the aircraft rolled off the runway due to a brake failure on 21 September 1955, and its duties were taken over by WD942, which returned to the UK on 28 September.


Cancellation

Complaints were constant about the size and weight of the system, especially aimed at GEC whose seeker was heavier than its WWII counterparts. Vickers eventually decided to start a complete redesign, abandoning the GEC seeker in favour of a semi-active system. This led to a new design of late 1955 or early 1956 of "only" , but then further simplifications lowered this to a spritely . Around this time, British intelligence services learned of the new Myasishchev M-52, which cruised at about Mach 1.2 and had a dash speed around Mach 1.5. The subsonic Thin-Wing Javelin would have significant difficulties dealing with this aircraft and the Air Ministry put all its attention on newer
supersonic Supersonic speed is the speed of an object that exceeds the speed of sound ( Mach 1). For objects traveling in dry air of a temperature of 20 °C (68 °F) at sea level, this speed is approximately . Speeds greater than five times ...
designs that were being developed as part of Operational Requirement F.155. Red Dean had been designed for launch from subsonic fighters and would fly supersonically only for a few seconds. On F.155 they would be flying continually at supersonic speeds and the airframe was not able to handle the resulting aerodynamic heating. For this new role, Vickers proposed what engineer Ralph Hooper described as "a development of Red Dean only in the same way that P.1103 is a development of the Hunter." This new project was assigned the name "Red Hebe". As a result of these changes in mission, and the cancellation of the Thin-Wing Javelin which would have carried it, Red Dean was cancelled in June 1956.


Description

The original Folland version was intended to be carried one each on the wingtips of the Meteor. It was in length and in diameter. The rocket motor was centered in the cylindrical fuselage and exited through a nozzle at the extreme rear, within a partial cone boat tail section. The front of the missile had a similar conical nose cone. Control was through four large rectangular wings arranged near the middle of the fuselage, and four small rectangular control fins just forward of the tail cone. The wings had a span of and the tail . During development the control layout was changed, adding a triangular fillet to the front of the main wings and extending the tail controls to and adding what the UK referred to as "mach tips", but is more widely known today as a cropped delta, intended to keep the rear section of the controls out of the shock waves generated by their leading edge. The initial design at Vickers was similar, but shortened by removing a section of the rear fuselage to reduce the length to and making both the wings and fins wide. The most notable change was to extend the boat tail section forward, to a point just behind the wings. The first full-scale missiles, of the WTV.2 series, featured a hemispherical nose cone which reduced overall length to , and slightly smaller wings and fins at span. The lengthy boat tail section was removed, returning to a design more similar to the final Folland versions. The final prototype versions, starting with WTV.4, was extended in length to and featured new wings and fins with swept-back leading edges and swept-forward trailing edges. This layout was largely retained the for final pre-production model, WTV.5, which added an extended ogive nose cone that took the length to and reshaped the fins to add mach tips. Internally the layout was somewhat complex. The rocket motor was arranged near the center of the fuselage, aligned with the wings in order to minimize changes in center of gravity as the motor burned. The warhead was just in front of the motor, roughly at the midpoint of the fuselage. To keep it from overheating while the rocket fired, air was fed through the fuselage around the warhead casing. Power for the electronics and control fins was supplied by a relatively large
De Havilland The de Havilland Aircraft Company Limited () was a British aviation manufacturer established in late 1920 by Geoffrey de Havilland at Stag Lane Aerodrome Edgware on the outskirts of north London. Operations were later moved to Hatfield in H ...
turboalternator in front of the warhead, powered by compressed air in a number of small bottles arranged around the rocket exhaust tube. Air was led forward, and power back, in channels under the wings, which can be seen in the photograph above. The seeker and fuse was at the nose. As it was felt that the vibrations from the rocket motor would produce too much mechanical noise into the radar system, the rocket had been designed to give a short burn time of only two seconds in order to minimize the time before the control system could activate. In testing, it was found that the problem was nowhere near as bad as expected. This led to modifications of the autopilot to allow it to control through the entire flight, with an accelerometer indicating the end of the rocket firing and then reducing the control power to avoid slowing the missile during the coasting phase by applying large control inputs.


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External links


Red Dean
{{UKmissiles Abandoned military projects of the United Kingdom Cold War missiles of the United Kingdom Vickers