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Lockheed NF-104A

January 13, 2023

The Lockheed NF-104A was an American mixed-power, high-performance, supersonic aerospace trainer that served as a low-cost astronaut training vehicle for the North American X-15 and projected Boeing X-20 Dyna-Soar programs.

NF-104A
Lockheed NF-104A, 56-0756, climbing with rocket power
Role Aerospace trainer
Manufacturer Lockheed Aircraft Corporation
Designer Clarence "Kelly" Johnson
First flight 9 July 1963
Introduction 1 October 1963
Retired June 1971
Primary user United States Air Force
Number built 3
Developed from Lockheed F-104 Starfighter

Three aircraft were modified from existing Lockheed F-104A Starfighter airframes, and served with the Aerospace Research Pilots School between 1963 and 1971, the modifications included a small supplementary rocket engine and a reaction control system for flight in the stratosphere. During the test program, the maximum altitude reached was more than 120,000 ft (36,600 m). One of the aircraft was destroyed in an accident while being flown by Chuck Yeager. The accident was depicted in the book The Right Stuff and the film of the same name. On December 10, 2019, Edwards Air Force Base released the complete video transcription of films of the 1963 flight and subsequent crash.[1]

Development

With the advent of human spaceflight in the early 1960s, the United States Air Force (USAF) Experimental Flight Test Pilot's School at Edwards Air Force Base was renamed the Aerospace Research Pilots School (ARPS), with the emphasis on training moving away from the traditional test pilot course to a more spaceflight-oriented curriculum.[2]

Initial use of unmodified F-104 aircraft

A number of standard production F-104 Starfighters were obtained (including F-104D two-seat versions)[3] and used by the ARPS to simulate the low lift/high drag glide approach path profiles of the X-15 and the projected X-20 Dyna-Soar program. These maneuvers were commenced at 12,000 ft (3,700 m) where the F-104 engine was throttled back to 80% power; and with the flaps, speedbrakes and landing gear extended, the aircraft was established in a 30° dive with a pull-out for the landing flare starting at 1,500 feet (500 m) above the ground. These glide approaches gave little room for error.

Reaction control system

 
JF-104 during RCS testing.

It was realized that normal aircraft control surfaces had little or no effect in the thin air of the upper stratosphere and that any aircraft operating at extremely high altitudes would need to be equipped with a reaction control system (RCS). A modified version of the Bell X-1 was used for initial RCS tests, but was grounded after technical problems. It was replaced in 1959 with a NASA-modified Lockheed F-104A (55-2961), which carried RCS systems on its wing tips and in the fuselage nose. This aircraft (designated JF-104) achieved a maximum altitude of 83,000 feet (25,300 m) during the test program. Pilots who flew this aircraft included Neil Armstrong, who gained valuable experience in using the RCS. Pilots complained that the instrument displays were difficult to read and were not accurate enough for the critical zoom climb profiles required to reach high altitudes.[4]

Lockheed contract

Lockheed was awarded a contract by the United States Air Force to modify three F-104A aircraft for the dedicated role of aerospace trainer (AST) in 1962. The airframes were taken out of storage at AMARG and transported to the company factory for modification.

Design and flight profile

The F-104A design was already established as a lightweight, high-performance aircraft. For the AST project, emphasis was placed on removing unnecessary equipment, fitting a rocket engine to supplement the existing jet engine, fitting an onboard RCS, and improving the instrumentation. The following are the main differences between the production version and the AST:

Wing

The wingspan of the NF-104A was increased by the addition of wingtip extensions. This modification was needed to house the RCS roll control thrusters and decreased the wing loading.

Tail surfaces

The vertical fin and rudder were replaced by the larger area versions from the two-seat F-104 and were structurally modified to allow installation of the rocket engine.

Fuselage

The fiberglass nose radome was replaced with an aluminum skin and housed the pitch and yaw RCS thrusters.

The air intakes originally designed by Ben Rich were of the same fixed geometry as the F-104A, but included extensions to the inlet cones for optimum jet engine operation at higher Mach numbers. Internal fuselage differences included provision for rocket propellant oxidizer tanks, removal of the M61 Vulcan cannon, radar equipment and unnecessary avionics. A nitrogen tank was installed for cabin pressurization purposes. This was required, as there would be no bleed air available from the engine after its normal and expected cutoff in the climb phase.

Rocket engine

In addition to the standard General Electric J79 jet engine, a Rocketdyne AR2-3 rocket engine was fitted at the base of the vertical fin. This engine burned a mixture of JP-4 jet fuel and 90% hydrogen peroxide oxidizer solution. The NF-104 carried enough oxidizer for approximately 100 seconds of rocket engine operation. The thrust level could be adjusted to maximum or approximately half power by the pilot using an additional throttle lever on the left side of the cockpit.

Reaction control system

The reaction control system consisted of eight pitch/yaw thrusters (four for each axis) and four roll thrusters. They used the same kind of hydrogen peroxide fuel as the main rocket engine from a dedicated 155 lb (70 kg) fuel tank and were controlled by the pilot using a handle mounted in the instrument panel. The pitch/yaw thrusters were rated at 113 lbf (500 N) thrust each and the roll thrusters were rated at 43 lbf (190 N) thrust.

Typical flight profile

 
Chuck Yeager in the cockpit of an NF-104A, 4 December 1963

The NF-104A was able to reach great altitudes through a combination of zoom climbing (building up a high speed in a shallow dive at high altitude, and then climbing steeply, converting speed and momentum into altitude) and use of the rocket engine (to reach higher level speeds and to maintain climb rate for as long as possible after entering the zoom climb). A typical mission involved a level acceleration at 35,000 feet (10,700 m) to Mach 1.9 where the rocket engine would be ignited, and on reaching Mach 2.1 the aircraft would be pitched up to a climb angle of 50-70° by carefully applying a load equal to 3.5 g. The J79 afterburner would start to be throttled down at approximately 70,000 feet (21,300 m) followed shortly after by manual fuel cutoff of the main jet engine itself around 85,000 feet (25,900 m) to prevent fast-rising engine temperatures from damaging the turbine stages of the jet engine. After continuing over the top of its ballistic arc the NF-104 would descend back into denser air where the main engine could be restarted using the windmill restart technique for recovery to a landing.[5]

Operational history

First NF-104A

The first NF-104A (USAF 56-0756) was accepted by the USAF on 1 October 1963. It quickly established a new unofficial altitude record of 118,860 feet (36,230 m) and surpassed this on 6 December 1963 by achieving an altitude of 120,800 feet (36,800 m). The aircraft was damaged in flight June 1963 when a rocket oxidizer vessel exploded. It suffered an inflight rocket motor explosion in June 1971. Although the pilot was able to land safely, the damaged aircraft was retired and this marked the end of the NF-104 project. This aircraft was transferred to the National Museum of the United States Air Force. It is on display at Nevada County Air Park, Grass Valley, California. wearing the markings of "56-0751".

Second NF-104A

 
NF-104A Tail Number 760 at the U.S. Air Force Test Pilot School.

The second NF-104A (USAF 56-0760) was accepted by the USAF on 26 October 1963. After retirement, this aircraft was mounted on a pole outside the U.S. Air Force Test Pilot School at Edwards Air Force Base and can still be seen there today. The extended wingtips, RCS, metal nose cone, and other parts from 56-0760 were loaned to Darryl Greenamyer for his civilian aviation record attempts using a highly modified F-104. When he was forced to eject during a record flight, his aircraft was destroyed and the parts were never returned.[6]

Third NF-104A

The third NF-104A (USAF 56-0762) was delivered to the USAF on 1 November 1963, and was destroyed in a crash while being piloted by Chuck Yeager on 10 December 1963. This accident was depicted in the book Yeager: An Autobiography, and the book and film adaptation of The Right Stuff. The aircraft used for filming was a standard F-104G flying with its wingtip fuel tanks removed, but otherwise lacked any of the NF-104A's modifications, most visibly the angled-up rocket engine at the base of the vertical stabilizer.[7]

Operators

  United States

Specifications (NF-104A)

 

Data from Libis.[8]

General characteristics

  • Crew: 1
  • Length: 54 ft 9 in (16.69 m)
  • Wingspan: 25 ft 9 in (7.85 m)
  • Height: 13 ft 6 in (4.11 m)
  • Wing area: 212.8 sq ft (19.77 m2)
  • Airfoil: Biconvex 3.36%[9]
  • Empty weight: 13,500 lb (6,123 kg)
  • Gross weight: 21,400 lb (9,707 kg)
  • Powerplant: 1 × General Electric J79-GE-3B afterburning turbojet engine, 9,600 lbf (43 kN) thrust dry, 14,800 lbf (66 kN) with afterburner
  • Powerplant: 1 × Rocketdyne AR2-3 liquid-fuelled rocket engine, 6,000 lbf (27 kN) thrust

Performance

  • Maximum speed: Mach 2.2

See also

Related development

Aircraft of comparable role, configuration, and era

Related lists

References

Notes

  1. ^ Complete Video: Then Col. Chuck Yeager Crash In NF-104A Dec 10, 1963 At Edwards Air Force Base - on YouTube
  2. ^ Libis 1999, p. 2.
  3. ^ Drendel 1976, p.24.
  4. ^ Libis 1999, p. 5.
  5. ^ Bowman 2000, p. 173.
  6. ^ Libis 1999, p. 39.
  7. ^ Check-Six.com — The Crash of Yeager's NF-104
  8. ^ Libis 1999, p. 41.
  9. ^ Lednicer, David. "The Incomplete Guide to Airfoil Usage". m-selig.ae.illinois.edu. Retrieved 16 April 2019.

Bibliography

  • Bowman, Martin W. Lockheed F-104 Starfighter. Ramsbury, Marlborough, Wiltshire, UK: Crowood Press Ltd., 2000. ISBN 1-86126-314-7.
  • Drendel, Lou. F-104 Starfighter in action, Aircraft No. 27. Carrollton, Texas: Squadron/Signal Publications, 1976. ISBN 0-89747-026-5.
  • Kinzey, Bert F-104 Starfighter in Detail & Scale. Blue Ridge Summit, PA: TAB books, 1991. ISBN 1-85310-626-7.
  • Libis, Scott. Lockheed NF-104A Aerospace Trainer (Air Force Legends Number 204). Simi Valley, CA: Steve Ginter, 1999. ISBN 0-942612-97-3.
  • Pace, Steve. F-104 Starfighter: Design, Development and Worldwide Operations of the First Operational Mach 2 Fighter. St. Paul, MN: Motorbooks International, 1992. ISBN 0-87938-608-8.
  • Reed, Arthur. F-104 Starfighter (Modern Combat Aircraft 9). London: Ian Allan Ltd., 1981. ISBN 0-7110-1089-7.
  • Upton, Jim. Lockheed F-104 Starfighter (Warbird Tech). North Branch, MN: Specialty Press, 2003. ISBN 1-58007-069-8.

External links

 
Wikimedia Commons has media related to Lockheed NF-104A.
  • NF-104.com
  • Joe Baugher NF-104 page

January 13, 2023
lockheed, 104a, american, mixed, power, high, performance, supersonic, aerospace, trainer, that, served, cost, astronaut, training, vehicle, north, american, projected, boeing, dyna, soar, programs, 104a, 0756, climbing, with, rocket, powerrole, aerospace, tra. The Lockheed NF 104A was an American mixed power high performance supersonic aerospace trainer that served as a low cost astronaut training vehicle for the North American X 15 and projected Boeing X 20 Dyna Soar programs NF 104ALockheed NF 104A 56 0756 climbing with rocket powerRole Aerospace trainerManufacturer Lockheed Aircraft CorporationDesigner Clarence Kelly JohnsonFirst flight 9 July 1963Introduction 1 October 1963Retired June 1971Primary user United States Air ForceNumber built 3Developed from Lockheed F 104 StarfighterThree aircraft were modified from existing Lockheed F 104A Starfighter airframes and served with the Aerospace Research Pilots School between 1963 and 1971 the modifications included a small supplementary rocket engine and a reaction control system for flight in the stratosphere During the test program the maximum altitude reached was more than 120 000 ft 36 600 m One of the aircraft was destroyed in an accident while being flown by Chuck Yeager The accident was depicted in the book The Right Stuff and the film of the same name On December 10 2019 Edwards Air Force Base released the complete video transcription of films of the 1963 flight and subsequent crash 1 Contents 1 Development 1 1 Initial use of unmodified F 104 aircraft 1 2 Reaction control system 1 3 Lockheed contract 2 Design and flight profile 2 1 Wing 2 2 Tail surfaces 2 3 Fuselage 2 4 Rocket engine 2 5 Reaction control system 2 6 Typical flight profile 3 Operational history 3 1 First NF 104A 3 2 Second NF 104A 3 3 Third NF 104A 4 Operators 5 Specifications NF 104A 6 See also 7 References 7 1 Notes 7 2 Bibliography 8 External linksDevelopment EditWith the advent of human spaceflight in the early 1960s the United States Air Force USAF Experimental Flight Test Pilot s School at Edwards Air Force Base was renamed the Aerospace Research Pilots School ARPS with the emphasis on training moving away from the traditional test pilot course to a more spaceflight oriented curriculum 2 Initial use of unmodified F 104 aircraft Edit A number of standard production F 104 Starfighters were obtained including F 104D two seat versions 3 and used by the ARPS to simulate the low lift high drag glide approach path profiles of the X 15 and the projected X 20 Dyna Soar program These maneuvers were commenced at 12 000 ft 3 700 m where the F 104 engine was throttled back to 80 power and with the flaps speedbrakes and landing gear extended the aircraft was established in a 30 dive with a pull out for the landing flare starting at 1 500 feet 500 m above the ground These glide approaches gave little room for error Reaction control system Edit JF 104 during RCS testing It was realized that normal aircraft control surfaces had little or no effect in the thin air of the upper stratosphere and that any aircraft operating at extremely high altitudes would need to be equipped with a reaction control system RCS A modified version of the Bell X 1 was used for initial RCS tests but was grounded after technical problems It was replaced in 1959 with a NASA modified Lockheed F 104A 55 2961 which carried RCS systems on its wing tips and in the fuselage nose This aircraft designated JF 104 achieved a maximum altitude of 83 000 feet 25 300 m during the test program Pilots who flew this aircraft included Neil Armstrong who gained valuable experience in using the RCS Pilots complained that the instrument displays were difficult to read and were not accurate enough for the critical zoom climb profiles required to reach high altitudes 4 Lockheed contract Edit Lockheed was awarded a contract by the United States Air Force to modify three F 104A aircraft for the dedicated role of aerospace trainer AST in 1962 The airframes were taken out of storage at AMARG and transported to the company factory for modification Design and flight profile EditThe F 104A design was already established as a lightweight high performance aircraft For the AST project emphasis was placed on removing unnecessary equipment fitting a rocket engine to supplement the existing jet engine fitting an onboard RCS and improving the instrumentation The following are the main differences between the production version and the AST Wing Edit The wingspan of the NF 104A was increased by the addition of wingtip extensions This modification was needed to house the RCS roll control thrusters and decreased the wing loading Tail surfaces Edit The vertical fin and rudder were replaced by the larger area versions from the two seat F 104 and were structurally modified to allow installation of the rocket engine Fuselage Edit The fiberglass nose radome was replaced with an aluminum skin and housed the pitch and yaw RCS thrusters The air intakes originally designed by Ben Rich were of the same fixed geometry as the F 104A but included extensions to the inlet cones for optimum jet engine operation at higher Mach numbers Internal fuselage differences included provision for rocket propellant oxidizer tanks removal of the M61 Vulcan cannon radar equipment and unnecessary avionics A nitrogen tank was installed for cabin pressurization purposes This was required as there would be no bleed air available from the engine after its normal and expected cutoff in the climb phase Rocket engine Edit In addition to the standard General Electric J79 jet engine a Rocketdyne AR2 3 rocket engine was fitted at the base of the vertical fin This engine burned a mixture of JP 4 jet fuel and 90 hydrogen peroxide oxidizer solution The NF 104 carried enough oxidizer for approximately 100 seconds of rocket engine operation The thrust level could be adjusted to maximum or approximately half power by the pilot using an additional throttle lever on the left side of the cockpit Reaction control system Edit The reaction control system consisted of eight pitch yaw thrusters four for each axis and four roll thrusters They used the same kind of hydrogen peroxide fuel as the main rocket engine from a dedicated 155 lb 70 kg fuel tank and were controlled by the pilot using a handle mounted in the instrument panel The pitch yaw thrusters were rated at 113 lbf 500 N thrust each and the roll thrusters were rated at 43 lbf 190 N thrust Typical flight profile Edit Chuck Yeager in the cockpit of an NF 104A 4 December 1963 The NF 104A was able to reach great altitudes through a combination of zoom climbing building up a high speed in a shallow dive at high altitude and then climbing steeply converting speed and momentum into altitude and use of the rocket engine to reach higher level speeds and to maintain climb rate for as long as possible after entering the zoom climb A typical mission involved a level acceleration at 35 000 feet 10 700 m to Mach 1 9 where the rocket engine would be ignited and on reaching Mach 2 1 the aircraft would be pitched up to a climb angle of 50 70 by carefully applying a load equal to 3 5 g The J79 afterburner would start to be throttled down at approximately 70 000 feet 21 300 m followed shortly after by manual fuel cutoff of the main jet engine itself around 85 000 feet 25 900 m to prevent fast rising engine temperatures from damaging the turbine stages of the jet engine After continuing over the top of its ballistic arc the NF 104 would descend back into denser air where the main engine could be restarted using the windmill restart technique for recovery to a landing 5 Operational history EditFirst NF 104A Edit The first NF 104A USAF 56 0756 was accepted by the USAF on 1 October 1963 It quickly established a new unofficial altitude record of 118 860 feet 36 230 m and surpassed this on 6 December 1963 by achieving an altitude of 120 800 feet 36 800 m The aircraft was damaged in flight June 1963 when a rocket oxidizer vessel exploded It suffered an inflight rocket motor explosion in June 1971 Although the pilot was able to land safely the damaged aircraft was retired and this marked the end of the NF 104 project This aircraft was transferred to the National Museum of the United States Air Force It is on display at Nevada County Air Park Grass Valley California wearing the markings of 56 0751 Second NF 104A Edit NF 104A Tail Number 760 at the U S Air Force Test Pilot School The second NF 104A USAF 56 0760 was accepted by the USAF on 26 October 1963 After retirement this aircraft was mounted on a pole outside the U S Air Force Test Pilot School at Edwards Air Force Base and can still be seen there today The extended wingtips RCS metal nose cone and other parts from 56 0760 were loaned to Darryl Greenamyer for his civilian aviation record attempts using a highly modified F 104 When he was forced to eject during a record flight his aircraft was destroyed and the parts were never returned 6 Third NF 104A Edit The third NF 104A USAF 56 0762 was delivered to the USAF on 1 November 1963 and was destroyed in a crash while being piloted by Chuck Yeager on 10 December 1963 This accident was depicted in the book Yeager An Autobiography and the book and film adaptation of The Right Stuff The aircraft used for filming was a standard F 104G flying with its wingtip fuel tanks removed but otherwise lacked any of the NF 104A s modifications most visibly the angled up rocket engine at the base of the vertical stabilizer 7 Operators Edit United StatesUnited States Air ForceSpecifications NF 104A Edit Data from Libis 8 General characteristicsCrew 1 Length 54 ft 9 in 16 69 m Wingspan 25 ft 9 in 7 85 m Height 13 ft 6 in 4 11 m Wing area 212 8 sq ft 19 77 m2 Airfoil Biconvex 3 36 9 Empty weight 13 500 lb 6 123 kg Gross weight 21 400 lb 9 707 kg Powerplant 1 General Electric J79 GE 3B afterburning turbojet engine 9 600 lbf 43 kN thrust dry 14 800 lbf 66 kN with afterburner Powerplant 1 Rocketdyne AR2 3 liquid fuelled rocket engine 6 000 lbf 27 kN thrustPerformance Maximum speed Mach 2 2See also EditCentury Series Robert Henry Lawrence Jr Related development Aeritalia F 104S Canadair CF 104 CL 1200 Lancer and Lockheed X 27 Lockheed F 104 Starfighter Lockheed XF 104 StarfighterAircraft of comparable role configuration and era Saunders Roe SR 53 Saunders Roe SR 177Related lists List of fighter aircraft List of Lockheed F 104 Starfighter operators List of military aircraft of the United States List of rocket aircraftReferences EditNotes Edit Complete Video Then Col Chuck Yeager Crash In NF 104A Dec 10 1963 At Edwards Air Force Base on YouTube Libis 1999 p 2 Drendel 1976 p 24 Libis 1999 p 5 Bowman 2000 p 173 Libis 1999 p 39 Check Six com The Crash of Yeager s NF 104 Libis 1999 p 41 Lednicer David The Incomplete Guide to Airfoil Usage m selig ae illinois edu Retrieved 16 April 2019 Bibliography Edit Bowman Martin W Lockheed F 104 Starfighter Ramsbury Marlborough Wiltshire UK Crowood Press Ltd 2000 ISBN 1 86126 314 7 Drendel Lou F 104 Starfighter in action Aircraft No 27 Carrollton Texas Squadron Signal Publications 1976 ISBN 0 89747 026 5 Kinzey Bert F 104 Starfighter in Detail amp Scale Blue Ridge Summit PA TAB books 1991 ISBN 1 85310 626 7 Libis Scott Lockheed NF 104A Aerospace Trainer Air Force Legends Number 204 Simi Valley CA Steve Ginter 1999 ISBN 0 942612 97 3 Pace Steve F 104 Starfighter Design Development and Worldwide Operations of the First Operational Mach 2 Fighter St Paul MN Motorbooks International 1992 ISBN 0 87938 608 8 Reed Arthur F 104 Starfighter Modern Combat Aircraft 9 London Ian Allan Ltd 1981 ISBN 0 7110 1089 7 Upton Jim Lockheed F 104 Starfighter Warbird Tech North Branch MN Specialty Press 2003 ISBN 1 58007 069 8 External links Edit Wikimedia Commons has media related to Lockheed NF 104A NF 104 com Joe Baugher NF 104 page Retrieved from https en wikipedia org w index php title Lockheed NF 104A amp oldid 1120385560, wikipedia, wiki, book, books, library,

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