Northrop XP-79

XP-79
	The sole prototype XP-79B.
Role	Interceptor
Manufacturer	Northrop Corporation
Designer	Jack Northrop
First flight	12 September 1945
Retired	12 September 1945
Status	Crashed, out of service
Primary user	United States Army Air Forces
Number built	1

Last updated February 05, 2024

The Northrop XP-79, USAAF project number MX-365, was a rocket and jet-powered flying wing fighter aircraft, designed by Northrop. The pilot operated the aircraft in a prone position, permitting him to withstand much greater g-forces in pitch. It also used a welded magnesium monocoque structure instead of riveted aluminum.

Design and development

In 1942, Jack Northrop conceived the XP-79 as a high-speed rocket-powered flying-wing fighter aircraft. In January 1943, a contract for two prototypes under the XP-79 designation was issued by the United States Army Air Forces (USAAF).

It was planned to use a 2,000 lbf (8,900 N) thrust XCALR-2000A-1 "rotojet" rocket motor from Aerojet that used mono-ethylaniline fuel and red fuming nitric acid (RFNA) oxidizer.^[1] However, the rocket motor, which used canted rockets to drive turbo-pumps was unsatisfactory and the aircraft was fitted with two Westinghouse 19B turbojets and re-designated XP-79B.

The XP-79 was built using a welded magnesium alloy monocoque structure with a leading edge thickness of 0.75 in (19 mm) which thinned out to 0.125 in (3.2 mm) at the trailing edge.

The pilot controlled the XP-79 through a tiller bar and intakes mounted at the wingtips supplied air for the unusual bellows-boosted split elevons which opened differentially to provide lateral (yaw) control, by increasing drag on one side of the aircraft, in addition to providing roll and pitch.^[2] The aircraft was also fitted with airbrakes outboard of them, also for yaw control. No rudders were used, and the vertical surfaces were simple fixed fins with no flight controls.

MX-324 and MX-334

Northrop was given a contract to build three glider demonstrators to test the design. Given the Northrop designation NS-12, the three gliders were also given project numbers from the USAAF. Confusingly, two project numbers were used, one MX-324 when discussing secret aspects of the powered gliders, and another, MX-334, relating to the aircraft when being built and flown as pure gliders.^[3]

The MX-334 was a flying wing glider with no tail surfaces, similar in layout and construction to the Northrop N-9M. Completed in late Spring 1943, MX-334 No.1 was tested in NACA Langley's wind tunnel, after which a large wire-braced fin was added for directional stability at high speeds. The first flight attempts were carried out by the no.2 aircraft towed behind a Cadillac car for low level take-off and landing tests, with no success. After modifications the first launch was carried out on 4 September 1943, towed behind a large truck. For more comprehensive testing, a Lockheed P-38 Lightning was used to tow the aircraft on 2 October 1943.

In early 1944 the no.2 aircraft was modified to take the 2,009 lbf (8,940 N) Aerojet XCAL-200 rocket motor, and reverted to the secret MX-324 designation. Testing with the rocket motor commenced on 22 June 1944, with the first aerotow launch for a powered flight on 5 July 1944, making it the first US-built rocket-powered aircraft to fly.^[2] Flight testing was concluded by 1 August 1944 and the two remaining aircraft were disposed of. MX-334 no.3 was written off on its second flight, on 10 November 1943, after Harry Crosby lost control in the prop-wash of the P-38 tug.

Testing

Following delays due to burst tires and brake problems during taxiing trials at Muroc dry lake, the XP-79B made its first flight on 12 September 1945, however, 15 minutes into the flight control was lost for unknown reasons while performing a slow roll. The nose dropped, and the roll continued with the aircraft impacting the ground in a vertical spin. Test pilot Harry Crosby had attempted to bail out but was struck by the aircraft and died. Shortly thereafter, the project was canceled along with work on the second prototype.

Variants

Data from: Northrop Flying Wings: a history of Jack Northrop's visionary aircraft^[3]

NS-12: Northrop company designation for the MX-324 program.
NS-14: Northrop designation for the XP-79 program.
MX-324: The "secret" designation for the powered version of the MX-334 glider. Only used for the no.2 glider, when powered by a single 200 lbf (890 N) Aerojet XCAL-200 liquid-fueled rocket engine.
MX-334: The designation used to describe the pure glider version (including the no.2 aircraft before it was fitted with the rocket engine).
MX-365: The USAAC project number for the XP-79 program.
XP-79: The initial design for a rocket powered fighter, to have been powered by 2 x 2,000 lbf (8.9 kN) Aerojet XCAL-2000 liquid-fueled rocket engine.
XP-79B: Three aircraft were ordered but only one was completed, crashing on its first flight on 12 September 1945.

Specifications (XP-79B)

Data from Northrop Flying Wings : a history of Jack Northrop's visionary aircraft^[3]^[4]

General characteristics

Crew: 1
Length: 13.98 ft (4.26 m)
Wingspan: 37.99 ft (11.58 m)
Height: 7.58 ft (2.31 m)
Wing area: 278 sq ft (25.8 m²)
Aspect ratio: 5.19
Airfoil: NACA 66,2-018
Empty weight: 5,842 lb (2,650 kg)
Gross weight: 8,669 lb (3,932 kg)
Fuel capacity: 300 US gal (250 imp gal; 1,100 L)
Powerplant: 2 × Westinghouse 19B axial flow turbojet, 1,150 lbf (5.1 kN) thrust each

Performance

Maximum speed: 547 mph (880 km/h, 475 kn)
Cruise speed: 480 mph (770 km/h, 420 kn)
Range: 993 mi (1,598 km, 863 nmi)
Endurance: 2.45 hours
Service ceiling: 40,000 ft (12,000 m)
Rate of climb: 4,000 ft/min (20 m/s)
Wing loading: 31 lb/sq ft (150 kg/m²)
Thrust/weight: 0.27

Armament

Guns: 4 x 0.5 in (12.70 mm) machine-guns

Related Research Articles

The McDonnell FH Phantom is a twinjet fighter aircraft designed and first flown during World War II for the United States Navy. The Phantom was the first purely jet-powered aircraft to land on an American aircraft carrier and the first jet deployed by the United States Marine Corps. Although only 62 FH-1s were built it helped prove the viability of carrier-based jet fighters. As McDonnell's first successful fighter, it led to the development of the follow-on F2H Banshee, which was one of the two most important naval jet fighters of the Korean War; combined, the two established McDonnell as an important supplier of navy aircraft.

The Lockheed P-80 Shooting Star was the first jet fighter used operationally by the United States Army Air Forces (USAAF) during World War II. Designed and built by Lockheed in 1943 and delivered just 143 days from the start of design, production models were flying, and two pre-production models did see very limited service in Italy just before the end of World War II. Designed with straight wings, the type saw extensive combat in Korea with the United States Air Force (USAF) as the F-80.

The Horten H.IX, RLM designation Ho 229 was a German prototype fighter/bomber designed by Reimar and Walter Horten to be built by Gothaer Waggonfabrik. Developed at a late stage of the Second World War, it was one of the first flying wing aircraft to be powered by jet engines.

The Bell P-59 Airacomet was a single-seat, twin jet-engine fighter aircraft that was designed and built by Bell Aircraft during World War II. It was the first jet produced in the United States. As the British were further along in jet engine development, they donated an engine for the United States to copy in 1941 that became the basis for the General Electric J31 jet engine used by the P-59 a year later. Because the plane was underpowered, the United States Army Air Forces (USAAF) was not impressed by its performance and canceled half of the original order for 100 fighters, using the completed aircraft as trainers. The USAAF would instead go on to select the Lockheed P-80 Shooting Star as its first operational jet fighter. Although no P-59s entered combat, the aircraft paved the way for later generations of U.S. turbojet-powered aircraft.

The Messerschmitt Me 328 was a prototype pulsejet-powered fighter aircraft designed and produced by the German aircraft manufacturer Messerschmitt AG.

The Henschel Hs 132 was a World War II dive bomber and interceptor aircraft of the German Luftwaffe that never saw service. The unorthodox design featured a top-mounted BMW 003 jet engine and the pilot in a prone position. The Soviet Army occupied the factory just as the Hs 132 V1 was nearing flight testing, the V2 and V3 being 80% and 75% completed.

The Northrop P-61 Black Widow is a twin-engine United States Army Air Forces fighter aircraft of World War II. It was the first operational U.S. warplane designed as a night fighter.

<span class="mw-page-title-main">Northrop F-89 Scorpion</span> An American jet-powered all-weather interceptor aircraft

The Northrop F-89 Scorpion is an all-weather, twin-engined interceptor aircraft designed and produced by the American aircraft manufacturer Northrop Corporation. It was the first jet-powered aircraft to be designed for the Interceptor role from the outset to enter service, as well as the first combat aircraft to be armed with air-to-air nuclear weapons in the form of the unguided Genie rocket. The name Scorpion came from the aircraft's elevated tail unit and high-mounted horizontal stabilizer, which kept it clear of the engine exhaust.

<span class="mw-page-title-main">Northrop YB-35</span> American flying-wing bomber prototype

The Northrop YB-35, Northrop designation N-9 or NS-9, were experimental heavy bomber aircraft developed by the Northrop Corporation for the United States Army Air Forces during and shortly after World War II. The airplane used the radical and potentially very efficient flying wing design, in which the tail section and fuselage are eliminated and all payload is carried in a thick wing. Only prototypes and pre-production aircraft were built, although interest remained strong enough to warrant further development of the design as a jet bomber, under the designation YB-49.

The Northrop YB-49 was an American prototype jet-powered heavy bomber developed by Northrop Corporation shortly after World War II for service with the United States Air Force. The YB-49 featured a flying wing design and was a turbojet-powered development of the earlier, piston-engined Northrop XB-35 and YB-35. The two YB-49s built were both converted YB-35 test aircraft.

The Curtiss-Wright XP-55 Ascender (company designation CW-24 is a 1940s United States prototype fighter aircraft built by Curtiss-Wright. Along with the Vultee XP-54 and Northrop XP-56, it resulted from United States Army Air Corps proposal R-40C issued on 27 November 1939 for aircraft with improved performance, armament, and pilot visibility over existing fighters; it specifically allowed for unconventional aircraft designs. An unusual design for its time, it had a canard configuration with a rear-mounted engine, and two vertical tails at end of swept wings. Because of its pusher design, it was satirically referred to as the "Ass-ender". Like the XP-54, the Ascender was designed for the 1,800 hp Pratt & Whitney X-1800 24-Cylinder H-engine, but was redesigned after that engine project was canceled. It was also the first Curtiss fighter aircraft to use tricycle landing gear.

The Convair XF-92 was an American, delta wing, first-generation jet prototype. Originally conceived as a point-defence interceptor, the design was later used purely for experimental purposes and only one was built. However, it led Convair to use the delta-wing on a number of designs, including the F-102 Delta Dagger, F-106 Delta Dart, B-58 Hustler, the US Navy's F2Y Sea Dart as well as the VTOL FY Pogo.

The Air Force Test Center (AFTC) is a development and test organization of the United States Air Force. It conducts research, development, test, and evaluation of aerospace systems from concept to deployment. It has test flown every aircraft in the Army Air Force's and the Air Force's inventory since World War II. The center employs nearly 13,000 people, and controls the second largest base in the Air Force.

The Northrop XP-56 Black Bullet was a unique prototype fighter interceptor built by the Northrop Corporation. It was one of the most radical of the experimental aircraft built during World War II. Ultimately, it was unsuccessful and did not enter production.

The Armstrong Whitworth A.W.52 was an early flying wing aircraft designed and produced by British aircraft manufacturer Armstrong Whitworth Aircraft.

The Douglas XB-43 Jetmaster is an American 1940s jet-powered prototype bomber. The XB-43 was a development of the XB-42, replacing the piston engines of the XB-42 with two General Electric J35 engines of 4,000 lbf (17.8 kN) thrust each. Despite being the first American jet bomber to fly, it suffered stability issues and the design did not enter production.

The Interstate XBDR was a design for an assault drone - an early television-guided missile - powered by two jet engines, that was designed by the Interstate Aircraft and Engineering Corporation during the latter stages of the Second World War for use by the United States Navy. Wind tunnel tests of a scale model were conducted, however no full-scale examples of the aircraft were built before the project was cancelled.

The Northrop JB-1A "Bat" or "Thunderbug" was a United States surface-to-surface cruise missile that was a jet-powered flying wing.

The Radioplane XKD4R, known by the company designation RP-70, was an American target drone developed by the Radioplane Division of the Northrop Corporation. Although it was not produced in quantity, it was developed into the successful AQM-38.

References

↑ "XCALR-2000A-1". www.astronautix.com. Archived from the original on August 20, 2016. Retrieved 9 February 2018.
1 2 Winchester, Jim (2005). The world's worst aircraft : from pioneering failures to multimillion dollar disasters. London: Amber Books. pp. 150–151. ISBN 1-904687-34-2.
1 2 3 Campbell, John M.; Pape, Garry R. (1995). Northrop Flying Wings : a history of Jack Northrop's visionary aircraft. Atglen, PA: Schiffer Pub. pp. 93–107, 252. ISBN 0887406890.
↑ "The Northrop XP-79 jet-powered flying wing project was cancelled after the single prototype was lost to an accident". Military Factory. Retrieved 8 June 2018.

Bibliography

Jenkins, Dennis R.; Landis, Tony R. (2008). Experimental & prototype U.S. Air Force jet fighters. North Branch, MN: Specialty Press. ISBN 978-1-58007-111-6.
Pelletier, Alain J. "Towards the Ideal Aircraft: The Life and Times of the Flying Wing, Part Two". Air Enthusiast , No. 65, September–October 1996, pp. 8–19. ISSN 0143-5450.

External links

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[astronautix-1] "XCALR-2000A-1". www.astronautix.com. Archived from the original on August 20, 2016. Retrieved 9 February 2018.

[Winchester-2] 1 2 Winchester, Jim (2005). The world's worst aircraft : from pioneering failures to multimillion dollar disasters. London: Amber Books. pp. 150–151. ISBN 1-904687-34-2.

[Campbell-3] 1 2 3 Campbell, John M.; Pape, Garry R. (1995). Northrop Flying Wings : a history of Jack Northrop's visionary aircraft. Atglen, PA: Schiffer Pub. pp. 93–107, 252. ISBN 0887406890.

[4] "The Northrop XP-79 jet-powered flying wing project was cancelled after the single prototype was lost to an accident". Military Factory. Retrieved 8 June 2018.

[1]

[2]

[3]

[4]