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Revision as of 21:38, 15 November 2019 editThe PIPE (talk | contribs)Extended confirmed users, Pending changes reviewers33,045 edits Operational history: Correction to Me 163 velocity record from summer of 1944← Previous edit Revision as of 13:33, 28 August 2020 edit undoAnthony Appleyard (talk | contribs)209,150 edits Development: LLoyNext edit →
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The D558 program was conceived as a joint NACA/U.S. Navy research program for ] and ]. As originally envisioned, there would be three phases to the D558 program: a jet-powered airplane, a mixed rocket/jet-powered configuration, and a design and mockup of a combat aircraft.<ref name="Francillon"/> A contract for design and construction of six D558-1 aircraft for the first phase was issued on 22 June 1945. The original plan had been for six aircraft with a mixture of nose and side ]s and varying wing ] sections. That plan was quickly reduced to three aircraft of a single configuration with a nose inlet. Plans for the second phase with mixed rocket/jet propulsion were also dropped. Instead, a new aircraft, the ], was designed with mixed rocket and jet propulsion for supersonic flight. The D558 program was conceived as a joint NACA/U.S. Navy research program for ] and ]. As originally envisioned, there would be three phases to the D558 program: a jet-powered airplane, a mixed rocket/jet-powered configuration, and a design and mockup of a combat aircraft.<ref name="Francillon"/> A contract for design and construction of six D558-1 aircraft for the first phase was issued on 22 June 1945. The original plan had been for six aircraft with a mixture of nose and side ]s and varying wing ] sections. That plan was quickly reduced to three aircraft of a single configuration with a nose inlet. Plans for the second phase with mixed rocket/jet propulsion were also dropped. Instead, a new aircraft, the ], was designed with mixed rocket and jet propulsion for supersonic flight.


Construction of the first 558-1 began in 1946 and was completed in January 1947. The fuselage used magnesium alloys extensively, while the wings were fabricated from more conventional aluminum alloys. The airframe was designed to withstand unusually high loads of up to 18 ] due to the uncertainties of transonic flight. The forward fuselage was designed so that it, including the cockpit, could be jettisoned from the aircraft in an emergency.<ref name=popsci>{{cite journal |title=Skystreak Heads For The Speed Limit |journal=Popular Science |date=March 1947 |volume=150 |issue=3 |pages=94–95 |url=https://books.google.com/?id=oyQDAAAAMBAJ&pg=RA1-PA33&dq=popular+science+1947+L-15A#v=onepage&q&f=true |accessdate=17 May 2019}}</ref> The aircraft was configured to carry more than {{convert|500|lb|kg}} of test equipment, including sensors (primarily strain gauges and accelerometers) in 400 locations throughout the aircraft. One wing was pierced by 400 small holes to enable aerodynamic pressure data to be collected.<ref name="heinemann">{{cite book Construction of the first 558-1 began in 1946 and was completed in January 1947. The fuselage used magnesium alloys extensively, while the wings were fabricated from more conventional aluminum alloys. It was made of ], which is 3% ] and 1% ] and the rest magnesium, being much lighter then ] and having a much higher ]<ref>Youtube video </ref>
The airframe was designed to withstand unusually high loads of up to 18 ] due to the uncertainties of transonic flight. The forward fuselage was designed so that it, including the cockpit, could be jettisoned from the aircraft in an emergency.<ref name=popsci>{{cite journal |title=Skystreak Heads For The Speed Limit |journal=Popular Science |date=March 1947 |volume=150 |issue=3 |pages=94–95 |url=https://books.google.com/?id=oyQDAAAAMBAJ&pg=RA1-PA33&dq=popular+science+1947+L-15A#v=onepage&q&f=true |accessdate=17 May 2019}}</ref> The aircraft was configured to carry more than {{convert|500|lb|kg}} of test equipment, including sensors (primarily strain gauges and accelerometers) in 400 locations throughout the aircraft. One wing was pierced by 400 small holes to enable aerodynamic pressure data to be collected.<ref name="heinemann">{{cite book
| last = Heinemann | last = Heinemann
| first = Edward H. | first = Edward H.

Revision as of 13:33, 28 August 2020

D-558-1 Skystreak
Role research aircraftType of aircraft
National origin United States
Manufacturer Douglas Aircraft Company
First flight 14 April 1947
Status Retired
Primary user United States Navy
National Advisory Committee for Aeronautics
Number built 3
Developed into Douglas D-558-2 Skyrocket

The Douglas Skystreak (D-558-1 or D-558-I) was an American single-engine jet research aircraft of the 1940s. It was designed in 1945 by the Douglas Aircraft Company for the U.S. Navy Bureau of Aeronautics, in conjunction with the National Advisory Committee for Aeronautics (NACA). The Skystreaks were turbojet-powered aircraft that took off from the ground under their own power and had unswept flying surfaces.

Development

The D558 program was conceived as a joint NACA/U.S. Navy research program for transonic and supersonic flight. As originally envisioned, there would be three phases to the D558 program: a jet-powered airplane, a mixed rocket/jet-powered configuration, and a design and mockup of a combat aircraft. A contract for design and construction of six D558-1 aircraft for the first phase was issued on 22 June 1945. The original plan had been for six aircraft with a mixture of nose and side air inlets and varying wing airfoil sections. That plan was quickly reduced to three aircraft of a single configuration with a nose inlet. Plans for the second phase with mixed rocket/jet propulsion were also dropped. Instead, a new aircraft, the D558-2, was designed with mixed rocket and jet propulsion for supersonic flight.

Construction of the first 558-1 began in 1946 and was completed in January 1947. The fuselage used magnesium alloys extensively, while the wings were fabricated from more conventional aluminum alloys. It was made of HK-31, which is 3% thorium and 1% zirconium and the rest magnesium, being much lighter then inconel and having a much higher heat capacity The airframe was designed to withstand unusually high loads of up to 18 times gravity due to the uncertainties of transonic flight. The forward fuselage was designed so that it, including the cockpit, could be jettisoned from the aircraft in an emergency. The aircraft was configured to carry more than 500 pounds (230 kg) of test equipment, including sensors (primarily strain gauges and accelerometers) in 400 locations throughout the aircraft. One wing was pierced by 400 small holes to enable aerodynamic pressure data to be collected.

The Skystreaks were powered by one Allison J-35-A-11 engine (developed by General Electric as the TG-180) — one of the first axial-flow turbojets of American origin — and carried 230 US gallons (871 l) of jet fuel (kerosene).

Operational history

Pilots Carl and Caldwell with a D-558-1 at Muroc, in 1947.

All the Skystreaks were initially painted scarlet, which led to the nickname crimson test tube. NACA later had the color of the Skystreaks changed to white to improve optical tracking and photography. The first of three D-558-1 Skystreaks, BuNo 37970, made its maiden flight on 14 April 1947, at Muroc Army Air Field (later named Edwards AFB). Less than 4 months later, on August 20, this aircraft with Commander Turner Caldwell, USN, reached 640.744 mph (1,031.178 km/h; 556.791 kn) flying D-558-1 #1. This was recognised as an official world air speed record, as the World War II German Me 163B V18 Komet rocket fighter prototype that was claimed to have reached 1,130 km/h (702 mph; 610 kn) in July 1944 did so in secrecy and not under the strict conditions that regulate official records (presence of FIA officials as observers, timed runs in two directions to cancel out wind speed, etc). The D-558-1 #1 Skystreak's record lasted 5 days, and was broken by then-Lieutenant Colonel Marion Carl, USMC, going 10 mph (16 km/h; 8.7 kn) faster in D-558-1 #2, BuNo 37971. This aircraft was delivered to the NACA Muroc Flight Test Unit in April 1949 after 101 flights had been completed by the Navy, Air Force, and Douglas. This aircraft was never flown by the NACA. The D-558-1 #1 is located at the National Naval Aviation Museum at Naval Air Station Pensacola, Florida.

Following 27 flights by the Navy and Douglas the second D-558-1 aircraft was delivered to the NACA in November 1947. The D-558-1 #2 underwent extensive instrumentation by the NACA Muroc instrumentation section. The number 2 Skystreak made a total of 19 flights with the NACA before it crashed on takeoff due to compressor disintegration on May 3, 1948, killing NACA pilot Howard C. Lilly. The third D-558-I, BuNo 37972, aircraft was delivered to the NACA Muroc Flight Test Unit in 1949 after three Douglas test pilots and Howard Lilly had flown it. The number three aircraft took over the planned flight program of the D-558-1 #2. From the first flight in 1949 through 1953 the third Skystreak was flown in an intensive flight-research program by seven NACA test pilots, with a great deal of useful data collected on high-subsonic handling. The D-558-1 #3 made a total of 78 research flights with the NACA before being retired on June 10, 1953. The third Skystreak is on display at Carolinas Aviation Museum located at the Charlotte-Douglas International Airport (CLT) in Charlotte, North Carolina.

The Skystreak reached Mach 0.99 in level flight, but only flew supersonic in a dive. In the public mind, much of the research performed by the D-558-1 Skystreaks was quickly overshadowed by Chuck Yeager and the supersonic Bell X-1 rocket plane. However, the Skystreak performed an important role in aeronautical research by flying for extended periods of time at transonic speeds, which freed the X-1 to fly for limited periods at supersonic speeds.

Aircraft Bureau Numbers (BuNo) and status

Specifications (D-558-1 Skystreak)

D-558-1 in flight

Data from McDonnell Douglas aircraft since 1920 : Volume I, Jane's all the World's Aircraft 1949-50

General characteristics

  • Crew: 1
  • Capacity: 500 lb (230 kg) of instrumentation
  • Length: 35 ft 8.5 in (10.884 m)
  • Wingspan: 25 ft 0 in (7.62 m)
  • Height: 12 ft 11.6875 in (3.954463 m)
  • Wing area: 150.7 sq ft (14.00 m)
  • Airfoil: NACA 65-110-->
  • Gross weight: 9,750 lb (4,423 kg)
  • Max takeoff weight: 10,105 lb (4,584 kg)
  • Fuel capacity: 230 US gal (190 imp gal; 870 L) + optional 50 US gal (42 imp gal; 190 L) jettisonable tip-tanks
  • Powerplant: 1 × Allison J35-A-11 turbojet engine, 5,000 lbf (22 kN) thrust

Performance

  • Maximum speed: 651 mph (1,048 km/h, 566 kn) at sea level
  • g limits: +11 (ultimate)
  • Wing loading: 64.7 lb/sq ft (316 kg/m)
  • Thrust/weight: 0.51

See also

Related development

Aircraft of comparable role, configuration, and era

Related lists

References

  1. ^ Francillon, René J. (1988). McDonnell Douglas aircraft since 1920 : Volume I. London: Naval Institute Press. pp. 412–416. ISBN 0870214284.
  2. Youtube video The Radioactive Alternative To The X-15 - Faster, Higher, Cheaper. The Douglas D-684
  3. "Skystreak Heads For The Speed Limit". Popular Science. 150 (3): 94–95. March 1947. Retrieved 17 May 2019.
  4. ^ Heinemann, Edward H.; Rosario Rausa (1980). Ed Heinemann: Combat Aircraft Designer. Annapolis, MD: Naval Institute Press. ISBN 0-87021-797-6.
  5. Käsemann, Ferdinand C.W. (1999). Die schnellsten Jets der Welt [The Fastest Jets In the World] (in German). Berlin: Aviatic-Verlag GmbH. pp. 17, 122. ISBN 3-925505-26-1.
  6. Stüwe, Botho (1999). Peenemünde West (in German). Augsburg: Bechtermünz Verlag. pp. 207, 211–213. ISBN 3-8289-0294-4.
  7. Bridgman, Leonard, ed. (1949). Jane's all the World's Aircraft 1949-50. London: Sampson Low, Marston & Co. pp. 214c–215c.
  8. Lednicer, David. "The Incomplete Guide to Airfoil Usage". m-selig.ae.illinois.edu. Retrieved 16 April 2019.

Further reading

External links

Douglas military aircraft
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Ground attack
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US Navy experimental aircraft designations 1946-1962
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