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From Wikipedia, the free encyclopedia

XV-3
The second Bell XV-3 during flight testing (c.1959)
Role Experimental VTOL aircraft
National origin United States
Manufacturer Bell Helicopter
First flight 11 August 1955
Status Display
Number built 2

The Bell XV-3 (Bell 200) is an American tiltrotor aircraft developed by Bell Helicopter for a joint research program between the United States Air Force and the United States Army in order to explore convertiplane technologies. The XV-3 featured an engine mounted in the fuselage with driveshafts transferring power to two-bladed rotor assemblies mounted on the wingtips. The wingtip rotor assemblies were mounted to tilt 90 degrees from vertical to horizontal, designed to allow the XV-3 to take off and land like a helicopter but fly at faster airspeeds, similar to a conventional fixed-wing aircraft.

The XV-3 was first flown on 11 August 1955. Although it was limited in performance, the aircraft successfully demonstrated the tiltrotor concept, accomplishing 110 transitions from helicopter to airplane mode between December 1958 and July 1962. The XV-3 program ended when the remaining aircraft was severely damaged in a wind tunnel accident on 20 May 1966.[1] The data and experience from the XV-3 program were key elements used to successfully develop the Bell XV-15, which later paved the way for the V-22 Osprey.[2]

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  • Bell Helicopter - XV-3 tiltrotor convertible rotor experimental aircraft, summary report
  • Bell Helicopter XV-3 Tilt Rotor.mpg
  • Bell Helicopter XV-15 tiltrotor promotion
  • NASA / Bell XV-15 Tiltrotor Experimental Aircraft - CharlieDeanArchives / Archival Footage
  • Bell XV-15 takeoff and maneuvering test

Transcription

Design and development

XV-3 in flight

In 1951, the Army and Air Force announced the Convertible Aircraft Program and released the Request for Proposals (RFP) to solicit designs from the aircraft industry. In October 1953, Bell Helicopter was awarded a development contract to produce two aircraft for testing purposes.[3] The original military designation was XH-33, classifying it as a helicopter, but its designation was changed to XV-3 in the convertiplane series. The designation was changed once again in 1962 to XV-3A when the V-prefix was changed to mean VTOL.[citation needed] The leading designers were Bob Lichten and Kenneth Wernicke.[2]

The first XV-3 (serial number 54-147) flew on 11 August 1955 with Bell Chief Test Pilot Floyd Carlson at the controls. On 18 August 1955, the aircraft experienced a hard landing when the rotor developed dynamic instability. Bell attempted to remedy the situation, and flight testing resumed on 29 March 1956 after additional ground runs. Bell continued to expand the flight envelope of the XV-3, but on 25 July 1956, the same rotor instability occurred again. Flight testing of the XV-3 resumed in late September 1956. Then, on 25 October 1956, the aircraft crashed when the test pilot blacked out due to extremely high cockpit vibrations. The vibrations resulted when the rotor shafts were moved 17 degrees forward from vertical. The test pilot, Dick Stansbury, was seriously injured, and the aircraft was damaged beyond repair.[2]

Bell modified the second XV-3 (serial number 54-148) by replacing the three-bladed rotors with two-bladed rotors, and after taking extensive precautions, the second XV-3 began testing at the National Advisory Committee for Aeronautics' (NACA) Ames Aeronautical Laboratory wind tunnel facility on 18 July 1957. Flight testing for aircraft #2 began on 21 January 1958 at Bell's facility. By April, the aircraft had expanded the flight envelope to 127 miles per hour (204 km/h) as well as demonstrating full autorotation landings and 30-degrees forward transitions with the rotor pylons. On 6 May 1958, another instance of rotor instability occurred when the pylons were advanced to 40-degrees forward pylon angle, and the XV-3 was grounded once more. The XV-3 returned to the Ames wind tunnel in October 1958 to collect more data before it could be flown again. As a result of the wind tunnel testing, the rotor diameter was reduced, wing structure was increased and strengthened, and the rotor controls were stiffened.

The XV-3 resumed flight testing at Bell's facility on 12 December 1958. On 18 December 1958, Bell test pilot Bill Quinlan accomplished the first dynamically stable full conversion to airplane mode, and on 6 January 1959, Air Force Captain Robert Ferry became the first military pilot to complete a tiltrotor conversion to airplane mode.[4] Flight testing at the Bell facilities was completed on 24 April 1959, and the aircraft was shipped to Edwards Air Force Base. The military flight testing of the XV-3 began on 14 May 1959. Promoted to the rank of Major, Robert Ferry would coauthor the report on the military flight evaluations, conducted from May to July 1959, noting that despite the deficiencies of the design, the "fixed-wing tilt-prop," or tiltrotor, was a practical application for rotorcraft.[5]

Following the completion of the joint service testing, the aircraft was returned to the Ames facility, where on 12 August 1959, Fred Drinkwater became the first NASA test pilot to complete the full conversion of a tiltrotor to airplane mode. On 8 August 1961, Army Major E. E. Kluever became the first Army pilot to fly a tiltrotor aircraft.[citation needed][6] Testing would continue through July 1962 as NASA and Bell completed wind tunnel testing to study pitch-flap coupling exhibited by the tiltrotor in an effort to predict and eliminate the aeroelastic dynamic rotor instability (referred to simply as pylon whirl) that had caused problems throughout the program.

In April 1966, Bell Helicopter aerodynamicist Dr. Earl Hall published an analysis of the XV-3 program data explaining the tiltrotor aircraft pylon whirl instability. In order to establish Hall's findings and develop a computer model, NASA agreed to conduct wind tunnel testing at the Ames 40 × 80 wind tunnel. As the engineers were completing the last planned test, a wingtip failure caused both rotors to fail, resulting in severe damage of the XV-3 and damage to the wind tunnel.[7] On 14 June 1966, NASA Ames Research Center announced the completion of XV-3 testing. The XV-3 had accomplished a total of 250 flights, accumulated 125 flight hours, and completed 110 full conversions.[6]

Survivors

XV-3, 54-148, on display at the National Museum of the USAF (2012)

In late 1966, the sole remaining XV-3, serial number 54-148, was moved to outside storage at Davis-Monthan AFB in Tucson, Arizona.[8] In 1984, the Bell XV-15 flight test team discovered the aircraft stored outside the Army's Aviation Museum during the XV-15 visit to Fort Rucker, Alabama, as part of a demonstration tour.[9] 54-148 was repaired by December 1986, with Army support and the leadership of former Bell XV-3 engineer Claude Leibensberger, but the aircraft was disassembled and placed into indoor storage.[10] On 22 January 2004, the XV-3 was delivered to Bell Plant 6 in Arlington, Texas.[8][11] In 2005, Bell Helicopter employees began work to restore 54-148 to museum display condition, this time led by former XV-3 engineer Charles Davis.[8] Following a two-year restoration, the XV-3 was transferred to the National Museum of the United States Air Force in Dayton, Ohio. It was placed on display in the Museum's Post-Cold War Gallery in June 2007,[12] and as of 2011 is on display in the Research & Development Gallery.[13]

Specifications (XV-3)

Starboard tiltrotor, Alliance Airshow, Fort Worth, Texas (2006)

Data from NASA Monograph 17[14] and Aerophile, Vol. 2, No. 1.[15]

General characteristics

  • Crew: 1
  • Length: 30 ft 4 in (9.25 m)
  • Wingspan: 31 ft 4 in (9.55 m)
  • Height: 13 ft 3 in (4.04 m)
  • Wing area: 116 sq ft (10.8 m2)
  • Airfoil: NACA 23021[16]
  • Empty weight: 1,907 lb (865 kg)
  • Gross weight: 2,218 lb (1,006 kg)
  • Powerplant: 1 × Pratt & Whitney R-985-AN-1 Wasp Junior 9-cylinder air-cooled radial piston engine, 450 hp (340 kW)
  • Main rotor diameter: 2 × 25 ft 0 in (7.62 m)
  • Main rotor area: 981.9 sq ft (91.22 m2) 3-bladed translating rotors
  • Blade section: NACA 0015[17]

Performance

  • Maximum speed: 184 mph (296 km/h, 160 kn)
  • Cruise speed: 167 mph (269 km/h, 145 kn)
  • Range: 255 mi (410 km, 222 nmi)
  • Service ceiling: 15,000 ft (4,600 m)
  • Rate of climb: 1,260 ft/min (6.4 m/s)

See also

Related development

Related lists

References

  1. ^ Kiley, Don. "The Tiltrotor. Aviation's square peg?". Flight Safety Information Journal Archived September 7, 2008, at the Wayback Machine. Special Edition, July 2003. Accessed on 26 October 2008.
  2. ^ a b c Whittle, Richard. "The Dream Machine: The Untold History of the Notorious V-22 Osprey" pp. 36, 41, 48. New York: Simon & Schuster, 2010. ISBN 1-4165-6295-8.
  3. ^ Maisel et al., 2000, p. 4.
  4. ^ Ristine, Jeff. "Obituary: Robert G. Ferry; Air Force veteran was record-setting test pilot" U-T San Diego, Feb. 2, 2009. Accessed: April 9, 2014.
  5. ^ Maisel et al., 2000, p. 14.
  6. ^ a b Maisel et al., 2000, p. 141.
  7. ^ Markman and Holder, 2000
  8. ^ a b c Miller, Jay. "World's First Tilt-Rotor Under Restoration". Flight Journal. November/December 2004. Accessed at findarticles.com on 26 October 2008.
  9. ^ The Bell XV-15 was flown over Fort Rucker's Nap-of-the-Earth (NOE) flight course from 10–13 September 1984. (Maisel et al., 2000, p. 145.)
  10. ^ Maisel et al. 2000, p. 17.
  11. ^ "XV-3, world’s first tiltrotor aircraft returns to Texas A half century after being built in Fort Worth". Press release from Bell Helicopter. 22 January 2004. Accessed at helis.com on 26 October 2008.
  12. ^ "BELL HELICOPTER TEXTRON XV-3" Archived September 25, 2008, at the Wayback Machine. National Museum of the USAF. Accessed on 26 October 2008.
  13. ^ "www.nationalmuseum.af.mil". Archived from the original on June 28, 2011.
  14. ^ Maisel et al. 2000, pp. 121–2.
  15. ^ Miller, Jay. Aerophile. San Antonio, Texas, June 1979. Volume 2, Number 1. pages 13–14.
  16. ^ Lednicer, David. "The Incomplete Guide to Airfoil Usage". m-selig.ae.illinois.edu. Retrieved 16 April 2019.
  17. ^ Pelletier, Alain J. (1992). Bell aircraft since 1935 (1st ed.). London: Putnam Aeronautical. p. 259. ISBN 1557500568.

Further reading

External links

This page was last edited on 1 April 2023, at 05:44
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