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Dassault Mirage III

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Mirage III
Royal Australian Air Force Mirage IIIO(F) (fighter) from 2 Operational Conversion Unit.
Type Interceptor aircraft
Manufacturer Dassault Aviation
Maiden flight 17 November 1956
Introduced 1961
Status Active service
Primary users French Air Force
Pakistani Air Force
Number built 1,422
Variants Dassault Mirage IIIV
Dassault Mirage 5
Atlas Cheetah

The Dassault Mirage III is a supersonic fighter aircraft designed in France by Dassault Aviation during the 1950s, and manufactured both in France and a number of other countries. It was a successful fighter aircraft, being sold to many air forces around the world and remaining in production for over a decade. Some of the world's smaller air forces still fly Mirage IIIs or variants as front-line equipment today, including Argentina, Chile, Colombia, Egypt, Gabon, Libya, Pakistan (largest operator), and Venezuela.

Development

File:Mirage III cockpit MG 1348.JPG
Cockpit of a Mirage III simulator of the Swiss Air Force.

The Mirage III family grew out of French government studies begun in 1952 that led in early 1953 to a specification for a lightweight, all-weather interceptor capable of climbing to 18,000 m (59,040 ft) in six minutes and able to reach Mach 1.3 in level flight.

Dassault's response to the specification was the Mystère-Delta 550, a sporty-looking little jet that was to be powered by twin Armstrong Siddeley MD30R Viper afterburning turbojets, each with thrust of 9.61 kN (2,160 lbf). A SEPR liquid-fuel rocket motor was to provide additional burst thrust of 14.7 kN (3,300 lbf). The aircraft had a tailless delta configuration, with a 5% chord (ratio of airfoil thickness to length) and 60 degree sweep.

The tailless delta configuration has a number of limitations. The lack of a horizontal stabilizer means flaps cannot be used, resulting in a long take-off run and a high landing speed. The delta wing itself limits maneuverability; and suffers from buffeting at low altitude, due to the large wing area and resulting low wing loading. However, the delta is a simple and pleasing design, easily built and robust, capable of high speed in a straight line, and with plenty of space in the wing for fuel storage.

The first prototype of the Mystere-Delta, without afterburning engine or rocket motor and an absurdly large vertical tailfin, flew on 25 June 1955. After some redesign, reduction of the tailfin to more rational size, installation of afterburners and rocket motor, and renaming to Mirage I, the prototype attained Mach 1.3 in level flight without the rocket, and Mach 1.6 with the rocket lit in late 1955.

However, the small size of the Mirage I restricted its armament to a single air-to-air missile, and even before this time it had been prudently decided the aircraft was simply too tiny to carry a useful warload. After trials, the Mirage I prototype was eventually scrapped.

Dassault then considered a somewhat bigger version, the Mirage II, with a pair of Turbomeca Gabizo turbojets, but no aircraft of this configuration was ever built. The Mirage II was bypassed for a much more ambitious design that was 30% heavier than the Mirage I and was powered by the new SNECMA Atar afterburning turbojet with thrust of 43.2 kN (9,700 lbf). The Atar was an axial flow turbojet, derived from the German World War II BMW 003 design.

The new fighter design was named the Mirage III. It incorporated the new area ruling concept, where changes to the cross section of an aircraft were made as gradual as possible, resulting in the famous "wasp waist" configuration of many supersonic fighters. Like the Mirage I, the Mirage III had provision for a SEPR rocket engine.

File:Dassault Mirage Cyrano 11 Radar.jpg
Cutaway view of the Cyrano radar system

The prototype Mirage III flew on 17 November 1956, and attained a speed of Mach 1.52 on its seventh flight. The prototype was then fitted with the SEPR rocket engine and with manually-operated intake half-cone shock diffusers, known as souris ("mice"), which were moved forward as speed increased to reduce inlet turbulence. The Mirage III attained a speed of Mach 1.8 in September 1957.

The success of the Mirage III prototype resulted in an order for 10 preproduction Mirage IIIAs. These were almost two meters longer than the Mirage III prototype, had a wing with 17.3% more area, a chord reduced to 4.5%, and an Atar 09B turbojet with afterburning thrust of 58.9 kN (13,230 lbf). The SEPR rocket engine was retained, and the aircraft were fitted with Thomson-CSF Cyrano Ibis air intercept radar, operational avionics, and a drag chute to shorten landing roll.

The first Mirage IIIA flew in May 1958, and eventually was clocked at Mach 2.2, making it the first European aircraft to exceed Mach 2 in level flight. The tenth IIIA was rolled out in December 1959. One was fitted with a Rolls-Royce Avon 67 engine with thrust of 71.1 kN (16,000 lbf) as a test model for Australian evaluation, with the name "Mirage IIIO". This variant flew in February 1961, but the Avon powerplant was not adopted.

Mirage III

File:Mirage III MG 1487.jpg
The belly of a Mirage III

Mirage IIIC and Mirage IIIB

The first major production model of the Mirage series, the Mirage IIIC, first flew in October 1960. The IIIC was largely similar to the IIIA, though a little under a half meter longer and brought up to full operational fit. The IIIC was a single-seat interceptor, with an Atar 09B turbojet engine, featuring an "eyelet" style variable exhaust.

The Mirage IIIC was armed with twin 30 mm DEFA revolver-type cannon, fitted in the belly with the gun ports under the air intakes. Early Mirage IIIC production had three stores pylons, one under the fuselage and one under each wing, but another outboard pylon was quickly added to each wing, for a total of five. The outboard pylon was intended to carry a Sidewinder air-to-air missile (AAM), later replaced by Matra Magic.

Although provision for the rocket engine was retained, by this time the day of the high-altitude bomber seemed to be over, and the SEPR rocket engine was rarely or never fitted in practice. In the first place, it required removal of the aircraft's cannon, and in the second, apparently it had a reputation for setting the aircraft on fire[citation needed]. The space for the rocket engine was used for additional fuel, and the rocket nozzle was replaced by a ventral fin at first, and an airfield arresting hook assembly later.

95 Mirage IIICs were obtained by the AdA, with initial operational deliveries in July 1961. The Mirage IIIC remained in service with the AdA until 1988.

The French Armée de l'Air (AdA) also ordered a two-seat Mirage IIIB operational trainer, which first flew in October 1959. The fuselage was stretched about a meter (3 ft 3.5 in) and both cannon were removed to accommodate the second seat. The IIIB had no radar, and provision for the SEPR rocket was deleted, although it could carry external stores. The AdA ordered 63 Mirage IIIBs (including the prototype), including five Mirage IIIB-1 trials aircraft, ten Mirage IIIB-2(RV) inflight refueling trainers with dummy nose probes, used for training Mirage IVA bomber pilots, and 20 Mirage IIIBEs, with the engine and some other features of the multi-role Mirage IIIE. One Mirage IIIB was fitted with a fly-by-wire flight control system in the mid-1970s and redesignated Mirage IIIB-SV (Stabilité Variable); this aircraft was used as a testbed for the system in the later Mirage 2000.

Mirage IIIE

While the Mirage IIIC was being put into production, Dassault was also considering a multirole/strike variant of the aircraft, which eventually materialized as the Mirage IIIE. The first of three prototypes flew on 1 April 1961.

The Mirage IIIE differed from the IIIC interceptor most obviously in having a 300 mm (11.8 in) forward fuselage extension to increase the size of the avionics bay behind the cockpit. The stretch also helped increase fuel capacity, as the Mirage IIIC had marginal range and improvements were needed. The stretch was small and hard to notice, but the clue is that the bottom edge of the canopy on a Mirage IIIE ends directly above the top lip of the air intake, while on the IIIC it ends visibly back of the lip.

Many Mirage IIIE variants were also fitted with a Marconi continuous-wave Doppler navigation radar radome on the bottom of the fuselage, under the cockpit. However, while no IIICs had this feature, it was not universal on all variants of the IIIE. A similar inconsistent variation in Mirage fighter versions was the presence or absence of an HF antenna that was fitted as a forward extension to the vertical tailplane. On some Mirages, the leading edge of the tailplane was a straight line, while on those with the HF antenna the leading edge had a sloping extension forward. The extension appears to have been generally standard on production Mirage IIIAs and Mirage IIICs, but only appeared in some of the export versions of the Mirage IIIE.

The IIIE featured Thomson-CSF Cyrano II dual mode air / ground radar; a radar warning receiver (RWR) system with the antennas mounted in the vertical tailplane; and an Atar 09C engine, with a petal-style variable exhaust.

The first production Mirage IIIE was delivered to the AdA in January 1964, and a total of 192 were eventually delivered to that service.

Total production of the Mirage IIIE, including exports, was substantially larger than that of the Mirage IIIC, including exports, totaling 523 aircraft. In the mid-1960s one Mirage IIIE was fitted with the improved SNECMA Atar 09K-6 turbojet for trials, and given the confusing designation of Mirage IIIC2.

Mirage IIIR

A number of reconnaissance variants were built under the general designation of Mirage IIIR. These aircraft had a Mirage IIIE airframe; Mirage IIIC avionics; a camera nose and unsurprisingly no radar; and retained the twin DEFA cannon and external stores capability. The camera nose accommodated up to five OMERA cameras.

The AdA obtained 50 production Mirage IIIRs, not including two prototypes. Interestingly, the Mirage IIIR preceded the Mirage IIIE in operational introduction. The AdA also obtained 20 improved Mirage IIIRD reconnaissance variants, essentially a Mirage IIIR with an extra panoramic camera in the most forward nose position, and the Doppler radar and other avionics from the Mirage IIIE.

Exports and License Production

File:Aust Mirage III.jpg
An Australian Mirage IIID (top) and Mirage IIIE (bottom) in 1980. These aircraft are now operated by the Pakistan Air Force

The Mirage IIIC was exported to Israel as the Mirage IIIC, to South Africa as the Mirage IIICZ', and to Switzerland as the Mirage IIICS, to which one was sold in preparation for license construction. Some export customers obtained the Mirage IIIB, with designations only changed to provide a country code. Such as the Mirage IIIDA for Argentina, Mirage IIIDBR and Mirage IIIDBR-2 for Brazil. Mirage IIIBJ for Israel, Mirage IIIDL for Lebanon, Mirage IIIDP for Pakistan, Mirage IIIBZ and Mirage IIIDZ and Mirage IIID2Z for South Africa, Mirage IIIDE for Spain, Mirage IIIBS and Mirage IIIDS for Switzerland, Mirage IIIDV for Venezuela.

After the outstanding Israeli success with the Mirage IIIC, scoring kills against Syrian Mikoyan-Gurevich MiG-17s and MiG-21 aircraft and then achieving a formidable victory against Egypt, Jordan, and Syria in the Six-Day War of June 1967, the Mirage III's reputation was greatly enhanced. The "combat-proven" image and low cost made it a popular export success.

A good number of IIIEs were built for export as well, being purchased in small quantities by Argentina as the Mirage IIIEA and Mirage IIIEBR-2 Brazil as the Mirage IIIEBR, Lebanon as the Mirage IIIEL, Pakistan as the Mirage IIIEP, South Africa as the Mirage IIIEZ, Spain as the Mirage IIIEE, and Venezuela as the Mirage IIIEV, with a list of subvariant designations, with minor variations in equipment fit. Dassault believed the customer was always right, and was happy to accommodate changes in equipment fit as customer needs and budget required. Pakistani Mirage 5PA3, for example, were fitted with Thomson-CSF Agave radar with capability of guiding the Exocet anti-ship missile.

Some customers obtained the two-seat Mirage IIIBE under the general designation Mirage IIID, though the trainers were generally similar to the Mirage IIIBE except for minor changes in equipment fit. In some cases they were identical, since two surplus AdA Mirage IIIBEs were sold to Brazil under the designation Mirage IIIBBR, and three were similarly sold to Egypt under the designation Mirage 5SDD. New-build exports of this type included aircraft sold to Abu Dhabi, Argentina, Australia, Belgium, Brazil, Chile, Colombia, Egypt, Gabon, Libya, Pakistan, Peru, Spain, Switzerland, Venezuela, and Zaire. Australian and Belgian aircraft were locally assembled.

Export versions of the Mirage IIIR were built for Pakistan as the Mirage IIIRP, South Africa as the Mirage IIIRZ, and Mirage IIIR2Z with an Atar 9K-50 jet engine, and for Switzerland. The Swiss only bought one, designated Mirage IIIRS, as a prelude to license manufacture, and built 17 more. Like the Mirage IIIS, Switzerland's Mirage IIIRS aircraft were later upgraded to feature fixed canards and new avionics. Export versions of the IIIR recce aircraft were purchased by Abu Dhabi, Belgium, Colombia, Egypt, Libya, Pakistan, and South Africa. Some export Mirage IIIRDs were fitted with British Vinten cameras, not OMERA cameras. Most of the Belgian aircraft were built locally.

The Mirage IIIE was also built under license in Australia and Switzerland. While the Avon-powered Mirage IIIO built for the Australians didn't work out, the Australians did become interested in producing their own Mirage IIIEs, retaining the designation Mirage IIIO, sometimes informally rendered as the "III-Oz". The production Mirage IIIO retained the SNECMA Atar engine, the major difference between the IIIE and the IIIO being avionics fit.

The Australians actually produced two variants: the Mirage IIIO(F), which was optimized as an interceptor, and the Mirage IIIO(A), which was optimized for the attack role. Dassault produced the first two sample IIIO(F) aircraft, with the first flying in March 1963. The Australian Government Aircraft Factory and Commonwealth Aircraft went on to complete 48 more IIIO(F) fighters and 50 IIIO(A) strike aircraft.

All the surviving Mirage IIIO(F) aircraft were converted to IIIO(A) standard between 1967 and 1979. The Mirage was finally withdrawn from Australian service in 1988, and 50 surviving examples were sold to Pakistan in 1990.

As mentioned, the Swiss acquired a single Mirage IIIC for tests, and then went on to produce 36 Mirage IIIS interceptors, with strengthened wings, airframe, and undercarriage (The Swiss air force needs performances comparable to those of embarked carrier planes). Avionics differed as well, with the most prominent difference being that the Thomson-CSF Cyrano II radar was replaced by Hughes TARAN-18 system, giving the Mirage IIIS compatibility with the Hughes AIM-4 Falcon AAM.

In the early 1990s, the 30 surviving Swiss Mirage IIIS interceptors were put through an upgrade program, which included fitting them with fixed canards and updated avionics.

Exports of later variants would also feature such modified designations, though there would be elaborations that could be very confusing.

Derivatives

Mirage 5/Mirage 50

Main article: Dassault Mirage 5

The next major variant, the Mirage 5, grew out of a request to Dassault from the Israeli Air Force. The first Mirage 5 flew on 19 May 1967. It looked much like the Mirage III, except it had a long slender nose that extended the aircraft's length by about half a metre. The Mirage 5 itself led directly to the Israeli Nesher, either through a Mossad (Israeli intelligence) intelligence operation or through covert cooperation with AdA (Armée de l'Air — the French Air Force), depending upon which story is accepted. (See details in the Nesher article.) In either case, the design gave rise to the Kfir, which can be considered a direct descendant of the Mirage III.

Milan

In 1968 Dassault, in cooperation with the Swiss, began work on a Mirage update known as the Milan ("Kite"). The main feature of the Milan was a pair of pop-out foreplanes in the nose, which were referred to as "moustaches". The moustaches were intended to provide better take-off performance and low-speed control for the attack role.

The three initial prototypes were converted from existing Mirage fighters and had non-retractable moustaches. One of these prototypes was nicknamed "Asterix", after the internationally popular French cartoon character, a tough little Gallic warrior with a huge moustache.

A fully equipped prototype rebuilt from a Mirage IIIR flew in May 1970, and was powered by the uprated SNECMA Atar 09K-50 engine, with 70.6 kN (15,900 lbf) afterburning thrust, following the evaluation of an earlier model of this new series on the one-off Mirage IIIC2. The Milan also had updated avionics, including a laser designator and rangefinder in the nose. A second fully equipped prototype was produced for Swiss evaluation as the Milan S.

The moustaches did provide significant handling benefits, but they had drawbacks. They blocked the pilot's forward view to an extent, and set up turbulence in the engine intakes. The Milan concept was abandoned in 1972, while work continued on achieving the same goals with canards.

Mirage 3NG

File:Mirage III mp3h0421.jpg
Mirage III fitted with canards

Following the development of the Mirage 50, Dassault had experimented with yet another derivative of the original Mirage series, named the Mirage 3NG (Nouvelle Génération, next generation). Like the Milan and Mirage 50, the 3NG was powered by the Atar 9K-50 engine. The prototype, a conversion of a Mirage IIIR, flew in December 1982.

The 3NG had a modified delta wing with leading-edge root extensions, plus a pair of fixed canards fitted above and behind the air intakes. The canards provided a degree of turbulent airflow over the wing to make the aircraft more unstable and so more maneuverable.

Avionics were completely modernized, leveraging off the development effort for the next-generation Mirage 2000 fighter. The Mirage 3NG used a fly-by-wire system to allow control over the aircraft's instabilities, and featured an advanced nav/attack system; new multimode radar; and a laser rangefinder system. The uprated engine and aerodynamics gave the Mirage 3NG impressive performance. The type never went into production, but to an extent the 3NG was a demonstrator for various technologies that could be and were featured in upgrades to existing Mirage IIIs and Mirage Vs.

Enhancements derived from the 3NG were incorporated into Brazilian Mirage IIIEs following 1989, as well as into four ex-Armée de l'Air Mirage IIIEs that were transferred to Brazil in 1988. In 1989 Dassault offered a similar upgrade refit of ex-AdA Mirage IIIEs under the designation Mirage IIIEX, featuring canards, a fixed in-flight refueling probe, a longer nose, new avionics, and other refinements.

A total of 1,422 Mirage III/5/50 aircraft of all types were built by Dassault. There were a few unbuilt variants:

  • A Mirage IIIK that was powered by a Rolls-Royce Spey turbofan was offered to the British Royal Air Force.
  • The Mirage IIIM was a carrier-based variant, with catapult spool and arresting hook, for operation with the French Aéronavale.
  • The Mirage IIIW was a lightweight fighter version, proposed for a US competition, with Dassault partnered with Boeing. The aircraft would have been produced by Boeing, but it lost to the Northrop F-5 Freedom Fighter.

Balzac / Mirage IIIV

Main article: Dassault Mirage IIIV

One of the most interesting offshoots of the Mirage III/5/50 fighter family tree was the Mirage IIIV vertical take-off and landing (VTOL) fighter. ("IIIV" is read "three-vee," not "three-five"). This aircraft featured eight small vertical lift jets straddling the main engine. The Mirage IIIV was built in response to a mid-1960s NATO specification for a VTOL strike fighter.

Mirage III ROSE Program

The ROSE program was launched by the French SAGEM to upgrade the Pakistan Air Force's Mirage III & 5 series. The upgradings took place in three stages - ROSE-I, ROSE-II, and ROSE-III. Approximately 42 Mirage IIIs underwent the ROSE I upgrade which included the addition of the Grifo M radar - which gave the PAF's ROSE I aircraft BVR capability. Under the ROSE-II program at least 40 PAF's Mirage 5 aircraft were upgraded with digital cockpits and FLIR pods; this made the ROSE II an air-to-surface strike-oriented aircraft capable of using H-series precision-guided bombs. The Mirage ROSE III is a follow-up version of the ROSE II, the PAF has 14 ROSE III aircraft in service.

Operators

File:Mirage3.jpg
Mirage IIICJ in Israeli Air Force museum

Popular culture

The Mirage fighter aircraft series is featured in the popular French comic Tanguy et Laverdure. The stories were made into the 1967-1969 French TV series Les Chevaliers du Ciel, and a French feature film Les Chevaliers du ciel (international title Skyfighters) in 2005, in which the Mirage 2000 is flown instead. The Mirage IIICJ featured prominently in an episode of Dogfights that portrayed exploits of Israeli fighter pilots during the Six-Day War.

Specifications (Mirage IIIE)

General characteristics

Performance

Armament


See also

Related development

Comparable aircraft

Related lists

References

  • Atlejees, Leephy. (1972). Armscor SABC.
  • Donald, David; Lake, Jon (editors) (2000). The Encyclopedia of World Military Aircraft. Barnes & Noble. 
  • Jackson, Paul. "Mirage III/5/50 Variant Briefing". World Air Power Journal 14, 15, 16. 
  • Lake, Jon (Winter 1966). "Atlas Cheetah". World Air Power Journal 27: 42-53. 
  • Rogers, Mike (1989). VTOL Military Research Aircraft. 
  • (June 1987) "Cheetah: Fighter Technologies". Archimedes 12. 
  • War of Attrition, 1969-1970, ACIG, retrieved October 13, 2006
  • Dassault Mirage 5/Nesher in Service with the IDF/AF, ACIG, retrieved October 13, 2006
  • "The Designer of the B-1 Bomber's Airframe", Wing Magazine, Vol. 30/No 4, August 2000, p.48
  • Breffort, Dominique; Jouineau, Andre (2004). The Mirage III, 5, 50 and derivatives from 1955 to 2000. Histoire et Collections, Paris. 

The initial version of this article was based on a public domain article from Greg Goebel's Vectorsite. And on Green, William; Swanborough, Gordon (1994). The Complete Book Of Fighters. Smithmark Books. 

External links

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