Rockwell XFV-12

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XFV-12
XFV-12A HC352-0-112 P1.jpg
XFV-12A on ramp at NAA in Columbus, Ohio
General information
Type VTOL fighter
Manufacturer Rockwell International
StatusCancelled (1981)
Primary user United States Navy
Number built1

The Rockwell XFV-12 was a prototype supersonic United States Navy fighter which was built in 1977. The XFV-12 design attempted to combine the Mach 2 speed and AIM-7 Sparrow armament of the McDonnell Douglas F-4 Phantom II in a VTOL (vertical takeoff and landing) fighter for the small Sea Control Ship which was under study at the time. On paper, it looked superior to the subsonic Hawker Siddeley Harrier attack fighter. However, it was unable to demonstrate an untethered vertical takeoff and its inability to meet performance requirements resulted in the program's termination.

Contents

Design and development

The XFV-12A aircraft mounted for tethered hover flights on Langley Impact Dynamics Research Facility. Rockwell XFV-12A on gantry.jpg
The XFV-12A aircraft mounted for tethered hover flights on Langley Impact Dynamics Research Facility.
XFV-12A mockup at the North American plant, Columbus, Ohio, ca. 1973. XFV-12A mockup NAColumbus NAN9-73.jpg
XFV-12A mockup at the North American plant, Columbus, Ohio, ca. 1973.

In 1972, the Navy issued a request for proposals for a next generation supersonic V/STOL fighter/attack aircraft. Rockwell's design with the XFV-12 won against Convair's proposal with the Convair Model 200. [1] The XFV-12A, despite its concept being considered risky compared to that of the Harrier, was selected for development. [2]

To reduce costs, the nose from the Douglas A-4 Skyhawk and intakes from the F-4 were used. Engine rig testing began in 1974. [3] [ permanent dead link ] Free-flight model tests conducted at the NASA Langley full-scale wind tunnel showed the projected thrust augmentation levels were highly optimistic, and that the aircraft would most likely be incapable of vertical flight on the thrust available, while the design remained suitable for conventional flight. [2]

The XFV-12 used a thrust augmented wing concept [3] in which exhaust would be directed through spaces in a wing opened up like venetian blinds to increase available lift, somewhat like Lockheed's unsuccessful XV-4 Hummingbird. Such arrangement restricted weapons carriage to under the narrow fuselage and two conformal missile mounts. Its canards were extremely large, almost 50% of the area of the wings, making it effectively a tandem wing. The 30,000 lbf (130 kN)-class afterburning turbofan engine was modified to provide enough thrust to lift the weight of the 20,000 lb (9,072 kg) aircraft. Some of these modifications included closing the rear engine exhaust and redirecting gases through ducts to ejector nozzles in the wings and canards for vertical lift.

Operational history

Ground testing of the XFV-12A began in July 1977, and the aircraft was officially rolled out at the Rockwell International facility in Columbus, Ohio on 26 August. [2] Due to increasing costs, construction of the second prototype was abandoned. [2]

Tethered hover tests were conducted in 1978. [2] Over the course of six months, it was determined that the XFV-12A design suffered from major deficiencies with regard to vertical flight, especially a lack of sufficient vertical thrust. [2] Lab tests showed 55% thrust augmentation should be expected; however, differences in the scaled-up system dropped augmentation levels to 19% for the wing and a mere 6% in the canard. [2] While the augmenters did work as expected, the extensive ducting of the propulsion system degraded thrust, and in the end the power-to-weight ratio was such that the engine was capable of vertically lifting only 75% of the weight of the aircraft in which it was mounted. [2]

Following the tests, and with the program suffering from cost overruns, the Navy decided the XFV-12A was not worth further development, and cancelled the project in 1981. [2] The October 6, 1975 issue of Aviation Week published an article about the Rockwell NA-382 which was an even more ambitious proposal to the Marine Corps to fit a similar wing to the Lockheed C-130 Hercules, but the plan never made it off the drawing board. [4]

Of the two prototypes built, only one was completed, while the second prototype was cancelled. [5]

The United States Marine Corps eventually adopted the subsonic British-designed Harrier, the only truly successful V/STOL design of the 1960s.

Surviving aircraft

Following program cancellation, the aircraft was disassembled and the cockpit section of the fuselage was stored at NASA's Plum Brook Station in Sandusky, Ohio. As of May 2012, a group of high school students at the EHOVE Career Center, with guidance from NASA contractor personnel, were to restore the fuselage for use as a museum display. [6] [7] [ needs update ]

Specifications

Data from Jane's All the World's Aircraft 1979–80, [8] Jane's All the World's Aircraft 1980–81 [9]

General characteristics

Performance

Armament

See also

Aircraft of comparable role, configuration, and era

Related lists

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References

Notes
  1. Convair Advanced Designs II, Robert E Bradly, Special Press ISBN   978-0-8597917-0-0
  2. 1 2 3 4 5 6 7 8 9 "GlobalSecurity.org" . XFV-12. Retrieved 13 January 2007.
  3. 1 2 "Historic Aircraft by Airborne Unlimited". Rockwell XFV-12. Retrieved 21 June 2010.[ permanent dead link ]
  4. Schneider, Charles E. (6 October 1975). "Rockwell Proposes Vtol C-130 Version" . Aviation Week. United States. Retrieved 29 October 2021.
  5. Willis, 2006, p. 65
  6. "NASA Ask the Academy Young Professional Brief -- Maciej Zborowski". NASA. 28 October 2011. Archived from the original on 31 July 2021. Retrieved 31 July 2021.
  7. Payerchin, Richard (28 May 2012). "NASA, EHOVE students team up to restore jet". The Morning Journal . Lorain, Ohio. Archived from the original on 31 July 2021. Retrieved 31 July 2021.
  8. Taylor, John W.R.; Munson, Kenneth, eds. (1979). Jane's All the World's Aircraft 1979–80 (69th ed.). London: Jane's Yearbooks. ISBN   978-0531039151.
  9. Taylor, John W.R., ed. (1980). Jane's All the World's Aircraft 1980–81 (71st ed.). London: Jane's Publishing Co. p. 430. ISBN   0-7106-0705-9.
Bibliography
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