AAM-A-1 Firebird | |
---|---|
Type | Air-to-air missile |
Place of origin | United States |
Service history | |
In service | Never entered service. |
Production history | |
Designed | 1946-1947 |
Manufacturer | Ryan Aeronautical Company |
Specifications | |
Mass | 260 pounds (120 kg) |
Length | 7 feet 6 inches (2.29 m) |
length | Booster, 1 foot 10 inches (0.56 m) |
Diameter | 8 inches (200 mm) |
Wingspan | 2 ft 8 in (0.81 m) |
Warhead | High explosive |
Warhead weight | 90 pounds (41 kg) |
Engine | Liquid-fuel rocket, 620 lbf (2.8 kN) Booster, solid-fuel rocket, 2,800 lbf (12 kN) |
Operational range | 8 miles (13 km) |
Maximum speed | Mach 0.85 |
Guidance system | Midcourse: Radio command Terminal: Active radar homing |
Launch platform | DB-26 Invader DF-82 Twin Mustang |
The AAM-A-1 Firebird was an early American air-to-air missile, developed by the Ryan Aeronautical Company. The first air-to-air missile program developed for the United States Air Force, the Firebird was extensively tested in the late 1940s; although it proved successful in testing, it was soon obsolete due to the rapid advances in aircraft and missile technology at the time and did not enter production.
Design and development
The AAM-A-1 project began in 1946 with the awarding of a study contract, under the designation MX-799, to the Ryan Aeronautical Company for the development of a subsonic air-to-air missile, which would be used by interceptor aircraft for the destruction of enemy bombers. A contract for the development of the missile, designated AAM-A-1 Firebird, was awarded in 1947.
The AAM-A-1 Firebird was a two-stage weapon, fitted with cruciform wings and tailfins. Control was by differential motion of the wings; the tailfins were fixed. The missile's fuselage was constructed from aluminum alloy, while the nosecone and control fins were molded from plastic. Firebird was fitted with a solid-fuel booster rocket providing initial thrust, before a liquid-fuel sustainer rocket ignited for a 15-second powered flight time.
Guidance was provided during midcourse flight by radio command, with an operator in the launching aircraft transmitting corrections to the missile. Terminal guidance used active radar homing, with a small radar set fitted in the nose of the missile, with the missile's warhead being detonated by a proximity fuze, a backup impact fuze also being fitted.
Operational history
Flight testing of the XAAM-A-1 prototype missiles began in October 1947, launched from DB-26 Invader bomber and DF-82 Twin Mustang aircraft, the latter of which could carry up to four missiles. The first air-to-air missile to reach the flight-test stage outside of World War II Nazi Germany, the Firebird proved to be reasonably successful in testing, with production being projected for the early 1950s; however its command-guidance system limited it to clear-weather, daytime use only.
Although radar beam riding guidance was planned to solve this, the subsonic speed of the weapon was also considered to be insufficient to avoid obsolescence; accordingly, the AAM-A-1's production program was terminated late in 1949, the Hughes Falcon being selected for development as the Air Force's standard intercept missile instead. The test program was considered to be successful, despite the rejection by the USAF, as a considerable amount of knowledge was gained that benefited later programs.
A Firebird missile is preserved at the Air Force Space & Missile Museum at Cape Canaveral Air Force Station in Florida.
See also
- Ruhrstahl X-4, the similar-appearance wire-guided air-to-air missile design of Nazi Germany (1943–45)
References
- Notes
- Some sources state the sustainer was also solid-fueled.
- Some sources state the terminal guidance was semi-active radar homing.
- Citations
- ^ Parsch 2004
- Popular Science, January 1950, p.144.
- ^ Space & Missile Museum 2011
- Popular Science, March 1952, p.155.
- Ross 1951, p.128.
- ^ Gunston 1979, p.222.
- Bowman 1957, p.113.
- Francillon 1990, p.24.
- Cooke 1951, p.147.
- Bibliography
- "Firebird". Cape Canaveral Air Force Station, FL: Air Force Space & Missile Museum. 2011. Retrieved 2011-02-09.
- "Fighter Fires New Missile". Popular Science. 156 (1). New York: Popular Science Publishing Co. January 1950. Retrieved 2011-02-09.
- "Tiny Radar Steers Missile". Popular Science. 160 (1). New York: Popular Science Publishing Co. March 1952. Retrieved 2011-02-09.
- Bowman, Norman John (1958). The Handbook of Rockets and Guided Missiles. Chicago: Perastadion Press. ASIN B002C3SPN2.
- Cooke, David Coxe; Martin Caidin (1951). Jets, Rockets, and Guided Missiles. New York: McBride. ASIN B000MRHQEE.
- Francillon, René J. (1990). McDonnell Douglas Aircraft since 1920: Volume II. Annapolis, MD: Naval Institute Press. ISBN 1-55750-550-0.
- Gunston, Bill (1979). The Illustrated Encyclopedia of the World's Rockets & Missiles. London: Salamander Books. ISBN 978-0-86101-029-5.
- Parsch, Andreas (2004). "Ryan AAM-A-1 Firebird". Directory of U.S. Military Rockets and Missiles Appendix 1: Early Missiles and Drones. designation-systems.net. Retrieved 2011-02-08.
- Ross, Frank (1951). Guided Missiles: Rockets & Torpedoes. New York: Lothrop, Lee & Shepard. ASIN B001LGSGX0.
External links
- "Air-to-Air Missile for U.S. Planes, Popular Mechanics, February 1950
Aircraft produced by Ryan Aeronautical and Ryan Airline Company | |
---|---|
Ryan Airline Company | |
Commercial | |
Fighters | |
Observation | |
Trainers | |
Drones/Missiles | |
Experimental/ Research |
United States Air Force rocket and missile designations 1947–1951 | |||||||
---|---|---|---|---|---|---|---|
Air-launched |
| ||||||
Ground-launched |
| ||||||
Test vehicles |
|