Tag Archives: Fédération Aéronautique Internationale

15 May 1918

Aviation, , , , , , , , ,
Packard Lepère L U.S.A. C. II in flight.

15 May 1918: The prototype Packard Lepère L U.S.A. C.II made its first flight.

The Packard Lepère L U.S.A. C. II was a single-engine, two-place, two-bay biplane chasseur which was designed by a French aeronautical engineer, Capitaine Georges Lepère, who had previously designed the Section Technique de l’Aeronautique Dorand AR.1 reconnaissance airplane for the Aéronautique Militaire, the military air service of France. The new airplane was built in the United States by the Packard Motor Car Company of Detroit, Michigan. It was a two-place fighter, or chasseur, light bomber, and observation aircraft, and was armed with four machine guns.

A contemporary aviation publication reported:

Flying Qualities—The machine exhibits excellent flying qualities, with ready response of all controls. Longitudinal, lateral and directional stability of the machine is good. In taxying, starting and landing it is entirely satisfactory, and on landing it does not roll more than 300 or 400 ft. [91.4–121.9 meters] All stunt maneuvers can readily be performed, and in general, from a pilot’s point of view, the machine is excellent.

The range of vision is very good, the controls well placed, and instruments so arranged that the pilot need only move his eyes.

AVIATION AND AERONAUTICAL ENGINEERING, Vol. VI, No. 8, 15 May 1919, at Page 426, Column 1.

Packard Lepère L U.S.A. C. II, P 54, S.C. 42138 (U.S. Air Force)

The Packard Lepère was 25 feet, 3⅛ inches (7.699 meters) long. The upper and lower wings had an equal span of 41 feet, 7¼ inches (12.681 meters), and equal chord of 5 feet, 5¾ inches (1.670 meters). The vertical gap between the wings was 5 feet, ⅝-inch (1.527 meters) and the lower wing was staggered 2 feet, 15/16-inch (0.633 meters) behind the upper wing. The wings’ incidence was +1°. Upper and lower wings were equipped with ailerons, and had no sweep or dihedral. The height of the Packard Lepère, sitting on its landing gear, was 9 feet, 7 inches (2.921 meters). The Packard Lepère had an empty weight of 2,561.5 pounds (1,161.9 kilograms) and its gross weight was 3,746.0 pounds (1,699.2 kilograms).

The fuselage was a wooden structure with a rectangular cross section. It was covered with three layers of veneer, (2 mahogany, 1 white wood) with a total thickness of 3/32-inch (2.38 millimeters). The fuselage had a maximum width of 2 feet, 10 inches (0.864 meters) and maximum depth of 4 feet, 0 inches (1.219 meters).

Packard fuselages under construction. (NARA)

The wings were also of wooden construction, with two spruce spars and spruce ribs. Three layers of wood veneer covered the upper surfaces. Heavy bracing wires were used. These had an airfoil cross-section and actually provided additional lift. The interplane struts were unusual in that they were fully-framed units.

The Packard Lepère was powered by a water-cooled, normally-aspirated, 1,649.336-cubic-inch-displacement (27.028 liter) Liberty L-12 single overhead cam (SOHC) 45° V-12 engine with a compression ratio of 5.4:1. The Liberty produced 408 horsepower at 1,800 r.p.m. The L-12 as a right-hand tractor, direct-drive engine and it turned turned a two-bladed, fixed-pitch wooden propeller. The Liberty 12 was 5 feet, 7.375 inches (1.711 meters) long, 2 feet, 3.0 inches (0.686 meters) wide, and 3 feet, 5.5 inches (1.054 meters) high. It weighed 844 pounds (383 kilograms).

The engine coolant radiator was positioned horizontally in the center section of the Lepère’s upper wing. Water flowed through the radiator at a rate of 80 gallons (303 liters) per minute.

Major Rudolph W. Schroeder flying P 53, a Packard Lepère L U.S.A. C. II,  A.S. 40015, over McCook Field, Ohio, 24 September 1919. (U.S. Air Force)

The Packard Lepère had a maximum speed of 130.4 miles per hour (209.9 kilometers per hour) at 5,000 feet (1,524 meters), 127.6 miles per hour (205.4 kilometers per hour) at 10,000 feet (3,048 meters), 122.4 miles per hour (197.0 kilometers per hour) at 15,000 feet (4,572 meters), 110.0 miles per hour (177.0 kilometers per hours) at 18,000 feet (5,486 meters) and 94.0 miles per hour (151.3 kilometers per hour) at 20,000 feet (6,096 meters). Its cruising speed was 112 miles per hour (180 was kilometers per hour). The airplane could climb to 5,000 feet in 4 minutes, 24 seconds, and to 20,000 feet in 36 minutes, 36 seconds. In standard configuration, the Packard Lepère had a service ceiling of 20,200 feet (6,157 meters). Its range was 320 miles (515 kilometers).

The fighter’s armament consisted of two fixed M1918 Marlin .30-caliber aircraft machine guns mounted on the right side of the fuselage, synchronized to fire forward through the propeller arc, with 1,000 rounds of ammunition, and two M1918 Lewis .30-caliber machine guns on a flexible mount with 970 rounds of ammunition.

The Air Service had ordered 3,525 of these airplanes, but when the War ended only 28 had been built. The contract was cancelled.

The third Packard Lepère, S.C. 42130, under construction at the Packard Motor Car Co., Detroit, Michigan. (NARA)

Six Packard Lepères were used for flight testing at McCook Field, Dayton, Ohio, assigned project numbers P 44, P 53, P 54, P 65, P 70 and P 80. One of these, flown by Major Rudolph W. Schroeder, set two Fédération Aéronautique Internationale (FAI) World Records for Altitude at 9,455 meters (31,020 feet), 18 September 1918.¹ On 6 September 1919, Schroeder flew a Packard Lepère to 8,616 meters (28,268 feet) while carrying a passenger. This set two more World Altitude Records.² Flying P 53, A.S. 40015, he set a fifth FAI altitude record of 10,093 meters (33,114 feet), 27 February 1920.³ On 28 September 1921, Captain John A. Macready flew P 53 to an altitude of 40,800 feet (12,436 meters). On 13 October 1922, 1st Lieutenant Theodore J. Koenig flew P 53 to win the Liberty Engine Builders’ Trophy Race at Selfridge Field, near Mount Clemens, Michigan. Koenig completed ten laps of the triangular racecourse in 2:00:01.54, at an average speed of 128.8 miles per hour (207.3 kilometers per hour).

The only Packard Lepère in existence, serial number A.S. 42133, is in the collection of the National Museum of the United States Air Force, Wright-Patterson Air Force Base, Ohio.

Packard Lepère L U.S.A. C. II, S.C. 42133, at the National Museum of the United States Air Force. (U.S. Air Force)
Packard Lepère L U.S.A. C. II, right profile

¹ FAI Record File Numbers 15463 and 15671

² FAI Record File Numbers 15464 and 15675

³ FAI Record File Number 8229

© 2019, Bryan R. Swopes

14 May 2005

Aviation, , , , , , , , , , , ,
Didier Delsalle approches the summit of Mount Everest. (Eurocopter)
Didier Delsalle approaches the summit of Mount Everest. (Eurocopter)

14 May 2005: Test pilot Didier Delsalle landed a Eurocopter AS 350 B3 Écureuil, c/n 3934, registration F-WQEX, at the summit of Mount Everest, the highest point on Earth, at 8,848 meters (29,029 feet).

The Fédération Aéronautique Internationale required that the helicopter remain on the summit for at least two 2 minutes for the landing to be considered official. Delsalle actually landed on the summit twice, staying four minutes each time. The flight set two world records for the highest take-off. ¹ At the summit, the wind was blowing 65 knots (75 miles per hour/120 kilometers per hour), and there were severe updrafts and downdrafts. The air temperature was -35 °C. (-31 °F.).

Delsalle said that on the upwind side, even with the helicopter’s collective fully down to reduce power and lift, the As 350 continued to gain altitude. On the downwind side, the winds blew him away from the summit, and at full power, he was unable to counteract that.

The most difficult problem, though, was that when over the summit, the mountain drops away in every direction. Delsalle had no visual referent to guide him to the surface.

These records broke Delsalle’s previous records for highest take-off, 7,927 meters (26,007 feet), set just two days earlier. ²

Mount Everest, looking north. (Wikipedia)

During flight tests to evaluate the practicality of the Everest flight, on 14 April 2005, Delsalle and the AS 350 set three time to climb world records over Istres, France. The Écueriel climbed to a height of 3,000 meters (9,843 feet) in 2 minutes, 21 seconds; 6,000 meters (19,685 feet) in 5 minutes, 6 seconds; and 9,000 meters (29,528 feet) in 9 minutes, 26 seconds. ³

Delsalle also rescued two Japanese climbers at 16,000 feet (4,877 meters).

Didier DelSalle with F-WQEX, 2005
Didier DelSalle with F-WQEX, at Lukla, Nepal, 2005. Elevation 2,866 meters (9,403 feet). (Magazine Aviation)

Didier Delsalle was born 6 May 1957, at Aix-en-Provence, France. He joined the Armée de l’Air (French Air Force) in 1979, and was trained as fighter pilot. In 1981 he transitioned to helicopters and was assigned to search-and-rescue operations. After twelve years military service, Delsalle became an instructor at École du personnel navigant d’essais et de réception, the French test pilot school at Istres, France. He then became the chief test pilot for light helicopters for Eurocopter, and later for the NH90 medium helicopter.

Delsalle holds seven FAI world records, five of which remain current.

FAI representatve (left) presents a World Record certificate to Eurocopter test pilot Didier Delsalle while company CEO looks on. (Aviation International News)
Fédération Aéronautique Internationale (FAI) representative Jacques Escaffe (left) presents a World Record certificate to Eurocopter test pilot Didier Delsalle while company CEO Fabrice Brégier looks on. (Aviation International News)

The Eurocopter AS 350 Écureuil is a  6–7 place, single-engine light helicopter, operated by a crew of one or two pilots. (It is known as the A-Star in the United States.) Introduced by Aérospatiale in 1975, it remains in production today and is one of the most popular civil helicopters. The manufacturer is now known as Airbus Helicopters.

Eurocopter AS 350 B3 Écureuil F-WQEX. (Airbus Helicopters)

The AS 350 B3 is a high-performance variant, widely used in law enforcement. The overall length with rotors turning is 12.94 meters (42 feet, 5.4 inches). The fuselage is 10.93 meters (35 feet, 10.3 inches) long and the cabin is 1.87 meters (6 feet, 1.6 inches) wide. The helicopter’s overall height is 3.14 meters (10 feet, 3.6 inches).

In keeping with standard French practice, the Écureuil/A-Star’s main rotor system turns clockwise as seen from above. (The advancing blade is on the helicopter’s left side.) The fully-articulated the three-blade rotor has a diameter of 10.69 meters (35 feet, 0.9 inch). The normal operating range is 385–394 r.p.m. (320–430 r.p.m. in autorotation). A two-bladed tail rotor is mounted on the right side of the tail boom in a pusher configuration. It rotates clockwise, as seen from the helicopter’s left. (The advancing blade is below the axis of rotation.) Its diameter is 1.86 meters (6 feet, 1.2 inches.)

The AS 350 B3 has an empty weight of approximately 1,174 kilograms (2,588 pounds), depending on installed equipment, and maximum gross weight of 2,250 kilograms (4,961 pounds)

AS 350 B3 three-view illustration with dimensions. (Eurocopter)

The AS 350 B3 variant is powered by a single Turboméca Arriel 2B turboshaft engine. The Arriel 2B is a free turbine turboshaft engine which uses an electronic engine control system (EECU). The engine has a two-stage compressor section (single-stage low-pressure axial flow, single-stage high-pressure centrifugal flow); an annular combustion chamber; and two-stage turbine section (single-stage gas generator and single-stage power turbine). The compressor section turns 52,110 r.p.m. at 100% N1; The power turbine, N2, turns 39,095 r.p.m. at 100%. A gear reduction unit reduces the engine’s output shaft speed to 5,990 r.p.m.

The Arriel 2B produces 847 shaft horsepower, but is de-rated to the helicopter’s main transmission limit. Installed, the Arriel 2B is rated at 536 horsepower for cruise; 700 horsepower, Maximum Continuous Power; and 733 horsepower for take off (5 minute limit).

The Arriel 2B is 118.0 centimeters (3 feet, 10.46 inches) long, 50.0 cm (1 foot, 6.69 inches) wide, 62.0 cm (2 feet, 0.41 inches) high. It weighs 134 kilograms (295.4 pounds), dry. The Arriel series engines are now produced by Safran Helicopter Engines.

Eurocopter AS 350 B3 Écureuil c/n 3934, F-WQEX, at Mount Everest. (Eurocopter)

The AS 350 B3 has a cruise speed of 132 knots (152 miles per hour/245 kilometers per hour) and maximum speed of 155 knots (178 miles per hour/287 kilometers per hour). It carries over four hours of fuel and has a maximum range of 357 nautical miles (411 statute miles/662 kilometers). The maximum allowable altitude is 7,010 meters (23,000 feet).

AS 350 B3 c/n 3934 was originally registered F-WWPN, then F-WQEX, and was later registered as F-HMGM, in service with Hélimountains, Bourg-Saint-Maurice, France. As of 2014, F-WQEX is on display at the Musée de l’Aviation, Saint-Victoret, Provence-Alpes-Côte d’Azur, France.

Didier Delsalle with Eurocopter AS 350 B3 c/n 3934, F-WQEX. (André Bour/helicopassion.com)
Detail from The Henry Washburn Shaded Relief Map of Mount Everest. (Reddit)

¹ FAI Record File Number 11596: Highest take-off (Subclass E-1); FAI Record File Number 11596: Highest take-off (Subclass E-1c). 8,848 meters (29,029 feet).

² FAI Record File Number 11594: Highest take-off (Subclass E-1); FAI Record File Number 11595: Highest take-off (Subclass E-1c). 7,927 meters (26,007 feet).

³ FAI Record File Number 11323: 3,000 meters (9,843 feet), 2:21; FAI Record File Number 11325: 6,000 meters (19,685 feet), 5:06; and FAI Record File Number 11326: 9,000 meters (29,528 feet), 9:26.

© 2019, Bryan R. Swopes

12 May 1951

Aviation, , , , , , ,
Jacqueline Auriol in the cockpit of a SNCASE Mistral, a license-built version of the de Havilland DH.100 Vampire. (Flying Review)

12 May 1951:  Mme Jacqueline Marie-Thérèse Suzanne Douet Auriol flew a Goblin-powered de Havilland DH.100 Vampire to set a Fédération Aéronautique Internationale (FAI) world record for speed over a given distance of 100 kilometers (62.14 statute miles), averaging  818.18 km/h (505.39 m.p.h.). ¹ Mme Auriol  took off from Istres, flew to Avignon and back. She broke the existing record, 703.38 km/h (437.06 m.p.h.) set 29 December 1949 by Jacqueline Cochran of the United States with a North American Aviation P-51C Mustang. ²

The Chicago Tribune reported:

MRS. AURIOL, 33, PILOTS PLANE AT RECORD 507 MPH

Breaks Women’s Mark of Jacqueline Cochran

     ISTRES AIRFIELD, Marseilles, France, May 12—[Reuters]—Mrs. Jacqueline Auriol, daughter-in-law of the French president, Vincent Auriol, today officially smashed the American held 100 kilometer [62.5 miles] air speed record for women.

     Mrs. Auriol, blue eyed mother of two children, flew the Istres-Avignon return course at an official speed of 818.558 kilometers an hour [about 507 miles].

     Thus she broke the three year old record of Jacqueline Cochran, who flew the distance at Coachella Valley, Cal., in a P-51 Mustang, powered by a Rolls-Royce piston engine, of 469 m.p. h.

     Mrs. Auriol established the new record in a French built Vampire jet, named “Mistral” after a prevailing French wind. The ship has two British De Havilland Gobling [sic] turbo-compressors.

Trial Run Even Faster

     At a trial run this morning Mrs. Auriol went even faster, covering the course at 509½ m.p.h. After the morning test run, Mrs. Auriol said she hadn’t “pushed” he aircraft at all. The French makers claim it can reach 567 m.p.h.

     Mrs. Auriol, 33, is slim, boyish, has her hair cut short and usually wears slacks. She studied painting, but gave it up after her marriage in 1938 to Paul Auriol, private secretary to his father.

     Her face bears the marks of a flying accident in which she nearly lost her life two years ago. She was co-piloting a seaplane which crashed into the Seine.

Holds U. S. Pilot License

     She spent a year in hospital in France before going to the United States to complete her treatment, which included 22 operations. Four eight months she had to be fed artificially.

     She learned to pilot a helicopter at Buffalo, N. Y., and passed her pilot test over Niagara Falls. She learned jet piloting in a Meteor with Test Pilot Raymond Guillaume, who was present today and made a test flight over the course before her record attempt.

Chicago Sunday Tribune, Vol. CX, No. 115, 13 May 1951, Part 1, Page 29, Column 1

For her record flight, Mme Auriol was named Chevalier de la légion d’honneur. Harry S. Truman, President of the United States, presented her with the Harmon International Aviatrix Trophy.

A SNCASE DH.100 Vampire. National Archives at College Park, National Archives Identifier 19982005)
A SNCASE-built DH.100 Vampire. (National Archives at College Park, National Archives Identifier 19982005)

The DH.100 was a single-seat, single-engine fighter powered by a turbojet engine. The twin tail boom configuration of the airplane was intended to allow a short exhaust tract for the engine, reducing power loss in the early jet engines available at the time.

Société nationale des constructions aéronautiques du Sud-Est (SNCASE) assembled knocked-down kits of de Havilland DH.100 Vampires before entering into licensed manufacture of its own SE.530 Mistral.

The fighter variant, the DH.100 F1, was armed with four 20 mm guns.

Cutaway illustration of the Halford H.1B Goblin turbojet engine. (Flight)

The Goblin is a linear descendant of the early Whittle units. It comprises a single-sided centrifugal compressor delivering air to sixteen combustion chambers grouped symmetrically around the axis of the unit and leading to the nozzle of the single-stage axial turbine which drives the compressor. Compressor impeller and turbine rotor are coupled by a tubular shaft to form a single rotating assembly which is mounted on only two ball bearings. The maximum diameters of the engine, around the compressor casing, is 50in., [1.27 meters] and with a jet pipe of minimum length fitted the overall length is about 8ft. [2.438 meters] Equipped with a jet pipe and all the necessary engine auxiliaries the dry weight of the complete unit is 1,500 lb. [680 kilograms] Fuel consumption is at the rate of 1.23 lb. / hr. per lb. thrust.

FLIGHT and AIRCRAFT ENGINEER, No. 1923. Vol. XLVIII. Thursday, 1 November 1945 at Page 472, Column 2

The Vampire entered service with the Royal Air Force in 1945 and remained a front-line fighter until 1953. 3,268 DH.100s were built. The SE.530 Mistral served with the Armée de l’air from 1952 to 1961. SNCASE had assembled 67 Vampire FB Mk 5 kits and built 120 SE.530 Mistrals.

¹ FAI Record File Number 10834

² FAI Record File Number 12462

© 2023, Bryan R. Swopes

11 May 1964

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Jackie Cochran and Lockheed F-104G Starfighter 62-12222 at Edwards AFB, 1964. (FAI)
Jackie Cochran and Lockheed F-104G Starfighter 62-12222 at Edwards AFB, 1964. (FAI)

11 May 1964: At Edwards Air Force Base, California, Jacqueline Cochran flew a Lockheed F-104G Starfighter, 62-12222, to 2,300.23 kilometers per hour (1,429.30 miles per hour)—Mach 2.16—over a straight 15 to 25 kilometer course. She was the first woman to fly faster than Mach 2 and she set a new Fédération Aéronautique Internationale (FAI) World Speed Record. ¹

Jackie Cochran taxiing Lockheed F-104G Starfighter 62-12222 at Edwards AFB, 1964. (FAI)
Jackie Cochran taxiing Lockheed F-104G Starfighter 62-12222 at Edwards AFB, 1964. (FAI)

Jackie Cochran wrote about flying the 15/25 kilometer straight course in her autobiography:

Picture in your mind a rectangular tunnel, 300 feet high, a quarter of a mile wide, and extending 20 miles long through the air at an altitude of 35,000 feet. I had to fly through that tunnel at top speed without touching a side. There were no walls to see but radar and ground instruments let me know my mistakes immediately. Up there at 35,000 feet the temperature would be about 45 degrees below zero. Not pleasant but perfect for what I was doing. Inside the plane you are hot because of the friction of speeding through the air like that. The cockpit was air-conditioned, but when you descend, things happen so fast the plane’s air-cooling system can’t keep up with it. I was always hot and perspiring back on the ground.

Jackie Cochran: An Autobiography, by Jacqueline Cochran and Maryann Bucknum Brinley, Bantam Books, New York 1987, Page 314.

Cochran set three speed records with this F-104G in May and June 1964. Under the Military Assistance Program, the U.S. Air Force transferred it to the Republic of China Air Force, where it was assigned number 4322. It crashed 17 July 1981.

The record-setting Lockheed F-104G Starfighter, USAF serial number 62-12222, in service with the Republic of China Air Force as 4322.
The record-setting Lockheed F-104G Starfighter, USAF serial number 62-12222, in service with the Republic of China Air Force as 4322.

The F-104G was the final production version of the Lockheed Starfighter. Rather than an interceptor, the G-model was a fighter bomber, with a strengthened fuselage and wings, and hardpoints for carrying bombs and additional fuel tanks. Built by Lockheed, they were also licensed for production by Canadair, Dornier, Fiat, Fokker, Messerschmitt and SABCA.

The F-104G was a single-seat, single engine fighter bomber, 54 feet 8 inches (16.662 meters) long with a wingspan of just 21 feet, 9 inches (6.629 meters) and overall height of 13 feet, 6 inches (4.115 meters). The empty weight is 14,000 pounds (6,350.3 kilograms) and loaded weight is 20,640 pounds (9,362.2 kilograms).

The F-104G was powered by a General Electric J79-GE-11A engine, a single-spool, axial-flow, afterburning turbojet, which used a 17-stage compressor section and 3-stage turbine. The J79-GE-11A is rated at 10,000 pounds of thrust (44.48 kilonewtons), and 15,800 pounds (70.28 kilonewtons) with afterburner. The engine is 17 feet, 4.0 inches (5.283 meters) long, 3 feet, 2.3 inches (0.973 meters) in diameter, and weighed 3,560 pounds (1,615 kilograms).

The maximum speed is 1,328 miles per hour (2,137.2 kilometers per hour). It has a combat radius of 420 miles (675.9 kilometers) or a ferry range of 1,630 miles (2,623.2 kilometers) The service ceiling is 50,000 feet (15,240 meters).

General Electric M61A1 20 mm rotary cannon in the weapons bay of a Lockheed F-104G Starfighter. (Michael Wolf/Wikipedia)
General Electric M61A1 20 mm rotary cannon in the weapons bay of a Lockheed F-104G Starfighter. (Michael Wolf/Wikipedia)

Armament consists of a 20 mm General Electric M61A1 Vulcan six-barreled Gatling gun, with 725 rounds of ammunition. Up to four AIM-9 Sidewinder air-to-air heat seeking missiles can be carried on the wingtips or under wing pylons. In place of missiles, two wingtip fuel tanks and another two under wing tanks could be carried.

On NATO alert, the F-104G was armed with a B43 variable-yield nuclear bomb mounted on the fuselage centerline hardpoint. The B43 could be set for explosive force between 170 kilotons and 1 megaton.

Two F-104G Starfighters in service with the Luftwaffe. The airplane closest to the camera, marked 26+41, was built by Messerschmitt with final assembly by MBB-Manching in February 1971. (© Peter Doll)
Two F-104G Starfighters in service with the Luftwaffe. The airplane closest to the camera, marked 26+41, was built by Messerschmitt with final assembly by MBB-Manching in February 1971. (© Peter Doll)

¹ FAI Record File Number 13041

© 2017, Bryan R. Swopes

8–19 May 1946

Aviation, , , , , , , , ,
A 20th Air Force Boeing B-29 Superfortress. (Fédération Aéronautique Internationale)

8–19 May 1946: Over an 11-day period, 20th Air Force Boeing B-29 Superfortresses based in the Marianas Islands set a series of twelve payload, altitude and speed records. These records were certified for the Fédération Aéronautique Internationale (FAI) and National Aeronautic Association (NAA) by Charles S. Logsden, the association’s official timer and records keeper. All of the record flights originated from Harmon Field on the Island of Guam.

Harmon Field, 24 January 1945. (NARA/U.S.Navy 80-G-346042)

On 8 May, a B-29 flown by Arthur A. Pearson carried a 10 000 kilogram (22,046 pounds) payload to an altitude of 12 668 meters (41,562 feet). [FAI Record File Number 10415] Other members of the flight crew were Vernon L. Dalbey, R.S. Strasburg, I. F. Bork, J.T Collins, and J. Friedberg.

Pearson’s flight crew. (Fédération Aéronautique Internationale)

Three days later, 11 May 1946, a B-29 under the command of Colonel Beverly Howard Warren took off from Harmon Field with a payload of 15 166 kilograms (33,435 pounds) and climbed to a height of 2 000 meters (6,562 feet). [FAI Record File Number 8738] The bomber then continued to climb until it reached an altitude of 12 046 meters (39,521 feet). [FAI Record File Number 8736] Colonel Warren (later, Brigadier General) was chief of special projects, headquarters, Pacific Air Command, United States Army (PACUSA). Other members of his crew were J.R. Dale, W.D. Collier, G.S. Fish, and T.H. Hall.

Colonel Warren’s flight crew consisted of J.R. Dale, W.D. Collier, G.S. Fish and T.H. Hall. (Fédération Aéronautique Internationale)

On 13 May, Elbert D. Reynolds, Brian P. Robson, John G. Barnes, T. Madden, K. H. Morehouse, W. C. Flynn,and  L. Lentowski flew their Superfortress with a payload of 2 000 kilograms (4,409 pounds) to an altitude 14 180 meters (46,522 feet). [FAI File Number 8738]

Elbert D. Reynolds’ flight crew, Brian P. Robson, John G. Barnes, T. Madden, K. H. Morehouse, W. C. Flynn,and  L. Lentowski. (Fédération Aéronautique Internationale)

The following day, 14 May, John B. Tobison’s B-29 carried a  5 000 kilogram (11,023 pounds) payload to an altitude of 13 793 meters (45,253 feet). [FAI Record File Number  8243] The members of his crew were A.W. Armistead, R.M. Beattie, E.J. Joyce, R.F. Johnson and M.R. Genta.

On 15 May, Finlay Ross and his crew, which included Dougall M. Davis, flew their B-29 to an altitude of 14 603 meters (47,910 feet) with a payload of 1 000 kilograms (2,205 pounds). [FAI Record File Number 8194]

Finlay Ross’s crew (Fédération Aéronautique Internationale)

17 May: E.M Graboski flew his B-29 around a closed circuit for a distance of 1 000 kilometers (621.37 miles) with a 5 000 kilogram (11,023.1 pounds) payload, with an average speed of 594,97 km/h (369.697 m.p.h.). [FAI Record File Number 10424] Continuing around the closed circuit for a total of 2 000 km (1,242.74 mi.), Grabowski and his crew set records for an average speed of 588.46 km/h (365.652 m.p.h.) with a 1 000 kg (2,204.6 lbs.) payload [FAI File #13329]; 2 000 kg (4,409.3 lbs.) [FAI # 13330]; and 5 000 kg (11,023.1 lbs.). [FAI # 10425] Grabowski’s crew members were J.J. Liset, D.P. Kelly, O.W. Lambert, F.M. Polmotier.

E.M. Grabowski’s crew (Fédération Aéronautique Internationale)

Finally. on 19 May 1946, J.D. Bartlett, with his crewmen, William Murray, C.M. Youngblood, Don J. Shrader, and R.F. Wilson, flew their Superfortress around a closed circuit if 1 000 km (621.37 mi.) with a payload of 10 000 kg (22,046 lbs.) at an average speed of 575,71 km/h (357.730 m.p.h.); [FAI # 10408]; and 2 000 km (1,243.74 mi.) at 574,59 km/h (357.034 m.p.h.) (FAI # 10409]

Boeing B-29-1-BN Superfortress 42-93843, the final Block 1 Superfortress, circa 1944.

The B-29 Superfortress was the most technologically advanced—and complex—aircraft of World War II. It required the manufacturing capabilities of the entire nation to produce. Over 1,400,000 engineering man-hours had been required to design the prototypes.

The Superfortress was manufactured by Boeing at Seattle and Renton, Washington, and Wichita, Kansas; by the Glenn L. Martin Company at Omaha, Nebraska; and by Bell Aircraft Corporation, Marietta, Georgia.

There were three XB-29 prototypes, 14 YB-29 pre-production test aircraft, 2,513 B-29 Superfortresses, 1,119 B-29A, and 311 B-29B aircraft. The bomber served during World War II and the Korean War and continued in active U.S. service until 1960. In addition to its primary mission as a long range heavy bomber, the Superfortress also served as a photographic reconnaissance airplane, designated F-13, a weather recon airplane (WB-29), and a tanker (KB-29).

The B-29 was operated by a crew of 11 to 13 men. It was 99 feet, 0 inches (30.175 meters) long with a wingspan of 141 feet, 3 inches (43.068 meters). The vertical fin was 27 feet, 9 inches (8.305 meters) high. The airplane’s empty weight was 71,500 pounds (32,432 kilograms). Its maximum takeoff weight of 140,000 pounds (63,503 kilograms).

The B-29’s wings had a total area of 1,720 square feet (159.8 square meters). They had an angle of incidence of 4° and 4° 29′ 23″ dihedral. The leading edges were swept aft to 7° 1′ 26″.

The B-29 was powered by four air-cooled, turbocharged and supercharged, 3,347.66-cubic-inch-displacement (54.858 liter) Wright Aeronautical Division Cyclone 18 (also known as the Duplex-Cyclone) 670C18BA4 (R-3350-23A) two-row, 18-cylinder radial engines. These had a Normal Power rating of 2,000 horsepower at 2,400 r.p.m., and 2,200 horsepower at 2,800 r.p.m., for takeoff. They drove 16 foot, 7 inch (5.055 meter) diameter, four-bladed, Hamilton Standard constant-speed propellers through a 0.35:1 gear reduction. The R-3350-23A was 6 feet, 4.26 inches (1.937 meters) long, 4 feet, 7.78 inches (1.417 meters) in diameter and weighed 2,646 pounds (1,200 kilograms).

The maximum speed of the B-29 was 353 knots (406 miles per hour/654 kilometers per hour) at 30,000 feet (9,144 meters), though its normal cruising speed was 216 knots (249 miles per hour/400 kilometers per hour) at 25,000 feet (7,620 meters). The bomber’s service ceiling was 40,600 feet (12,375 meters) and the maximum ferry range was 4,492 nautical miles (5,169 statute miles/8,319 kilometers).

The Superfortress could carry a maximum of 20,000 pounds (9,072 kilograms) of bombs in two bomb bays. For defense, it was armed 12 Browning AN-M2 .50-caliber machine guns in four remote, computer-controlled gun turrets and a manned tail position. The bomber carried 500 rounds of ammunition per gun. (Some B-29s were also armed with an M2 20 mm autocannon at the tail.)

A number of B-29 Superfortresses are on display at locations around the world, but only two, the Commemorative Air Force’s B-29A-60-BN 44-62070, Fifi, and B-29-70-BW 44-69972, Doc, are airworthy. (After a lengthy restoration, Doc received its Federal Aviation Administration Special Airworthiness Certificate, 19 May 2016.)

© 2020, Bryan R. Swopes