12 May 1953

Aviation, , , , , , , , , , , , ,
Jean L. "Skip" Ziegler, with the Bell X-5 at Edwards Air Force Base, 1952. (LIFE Magazine via Jet Pilot Overseas.
Jean LeRoy “Skip” Ziegler, with the Bell X-5 at Edwards Air Force Base, 1951. (LIFE Magazine)

12 May 1953: A Boeing B-50A-5-BO Superfortress, 46-011, modified to carry a Bell X-2 supersonic research rocketplane, was engaged in a captive test flight at 30,000 feet (9,144 meters) over Lake Ontario, between Canada and the United States. The number two X-2, 46-675, was in the bomb bay.

The bomber was equipped with a system to keep the X-2’s liquid oxygen tank filled as the cryogenic oxidizer boiled off. With Bell’s Chief of Flight Research, test pilot Jean Leroy (“Skip”) Ziegler, in the bomb bay above the X-2, the system operation was being tested.

There was an explosion. The X-2 fell from the bomber and dropped into Lake Ontario, between Trenton, Ontario, Canada, and Rochester, New York, U.S.A. Skip Ziegler and an engineer aboard the bomber, Frank Wolko, were both lost. A technician, Robert F. Walters, who was in the aft section of the B-50 with Wolko, was badly burned and suffered an injured eye.

The B-50’s pilots, William J. Leyshon and David Howe, made an emergency landing at the Bell Aircraft Corporation factory airport at Wheatfield, New York (now, the Niagara Falls International Airport, IAG). The bomber was so heavily damaged that it never flew again.

Heavy fog over the lake hampered search efforts. Neither the bodies of Ziegler and Wolko or the wreckage of the X-2 were ever found.

A Bell X-2 rocketplane is loaded aboard the Boeing B-50A Superfortress "mothership," 46-011. (U.S. Air Force)
A Bell X-2 rocketplane is loaded aboard the Boeing B-50A-5-BO Superfortress “mothership,” 46-011. (U.S. Air Force)

After a series of explosions of early rocketplanes, the X-1A, X-1-3, X-1D and the X-2,  investigators discovered that leather gaskets which were used in the fuel system had been treated with tricresyl phosphate (TCP). When this was exposed to liquid oxygen an explosion could result. The leather gaskets were removed from the other rocketplanes and the explosions stopped.

The X-2 was a joint project of the U.S. Air Force and NACA (the National Advisory Committee on Aeronautics, the predecessor of NASA). The rocketplane was designed and built by Bell Aircraft Corporation of Buffalo, New York, to explore supersonic flight at speeds beyond the capabilities of the earlier Bell X-1 and Douglas D-558-II Skyrocket. Two X-2s were built.

In addition to the aerodynamic effects of speeds in the Mach 2.0–Mach 3.0 range, engineers knew that the high temperatures created by aerodynamic friction would be a problem, so the aircraft was built from stainless steel and K-Monel, a copper-nickel alloy.

The Bell Aircraft Corporation X-2 was 37 feet, 10 inches (11.532 meters) long with a wingspan of 32 feet, 3 inches (9.830 meters) and height of 11 feet, 10 inches (3.607 meters). Its empty weight was 12,375 pounds (5,613 kilograms) and loaded weight was 24,910 pounds (11,299 kilograms).

The X-2 was powered by a throttleable two-chamber Curtiss-Wright XLR25-CW-1 rocket engine that produced 2,500–15,000 pounds of thrust (11.12–66.72 kilonewtons)

Boeing EB-50D Superfortress 48-096 with a Bell X-2 (U.S. Air Force)

Rather than use its limited fuel capacity to take off and climb to altitude, the X-2 was dropped from a modified heavy bomber as had been the earlier rocketplanes.

The launch altitude was 30,000 feet (9,144 meters). After the fuel was exhausted, the X-2 glided to a touchdown on Rogers Dry Lake at Edwards Air Force Base.

The X-2 reached a maximum speed of Mach 3.196 (2,094 miles per hour/3,370 kilometers per hour) and maximum altitude of 126,200 feet (38,466 meters).

Bell X-2 46-675 on its transportation dolly at Edwards Air Force Base, California, 1952. (NASA)
Bell X-2 46-675 on its transportation dolly at Edwards Air Force Base, California, 1952. (NASA)

Jean LeRoy Ziegler was born 1 January 1920 at Endeavor, Pennsylvania. He was the first of three sons of LeRoy Curtiss (“Lee”) Ziegler, a stationary engineer for a gas field, and Daisy Pearl Gesin Zeigler.

Ziegler attended Endeavor High School, and then studied at Pennsylvania State College for two years.

Jean LeRoy Ziegler, circa 1940. (Niagara Aerospace Museum)

During the last week of June 1940, Ziegler enlisted in the United States Army Air Corps. He was sent to the Alabama Institute of Aeronautics at Tuscaloosa, Alabama, for Phase 1 primary flight training. He then went on to advanced training at Maxwell Army Air Field, near Montgomery, Alabama. Upon graduation, Ziegler was commissioned as a second lieutenant, 7 February 1941.

Lieutenant Ziegler was assigned to Patterson Field, Fairfield, Ohio, as at transport pilot.

In September 1941, Lieutenant Ziegler, a reserve officer, was released from active duty. He was then employed by Pan American Airways-Africa, Limited. On 26 September 1941, he departed Ohio for New York, and from there traveled to Africa for a six-month assignment.

Pan American Airways-Africa, Limited, routes

Ziegler flew the Douglas DC-3 for Pan Am in Africa and the Middle East, India, Burma and China. He is credited with being one of the first three pilots to fly cargo from Burma to China over the Himalaya Mountains, a route that would be know as “The Hump.” He flew ammunition and fuel to the American Volunteer Group (better known as the “Flying Tigers”) in China, and returned with Chinese refugees.

On 10 June 1942, Ziegler returned to the United States, arriving in Miami, Florida, via Port of Spain, Trinidad, aboard a Pan American Airways Boeing 314A, NC18612, Cape Town Clipper. (This was the last Model 314 built by Boeing.)

Boeing 314A NC18612, Clipper Cape Town. (David J. Gauthier Collection, 1000aircraftphotos.com)

After a few months, Ziegler was hired by the Curtiss-Wright Corporation, Airplane Division, as a production test pilot. He was assigned to Plant 2 at Cheektowaga, New York. He would fly the P-40 Warhawk and SB2C Helldiver.

Curtiss Gets Another New Test Aviator

Military Supply Pilot Joins Buffalo Staff

    Jean L. Ziegler of Endeavor, Pa., who flew hundreds of refugees into India when the Japs swarmed through Burma last year, has been added to the production test pilot staff of the Curtiss-Wright Corporation Airplane Division in Buffalo.

     The 22-year-old flier is the second to join Curtiss here within a week. Donald Armstrong, 22, former flight lieutenant in the Royal Canadian Air Force, reported last week.

Graduate of Army School

     Ziegler entered the Army Flying School at Maxwell Field, Ala., in June 1940, and was graduated from the advanced course a year later. He was transferred to a transport unit at Patterson Field, O., where he remained until September, 1941. Then he was hired by Pan American Airways to serve as a pilot on military supply routes of the transport ferry command in Africa, India, the Middle East, China and Burma.

     When the Japs began an intensive drive toward the north in Burma, Ziegler was on of the airmen who volunteered to fly refugees into India. He carried fuel and ammunition to Burma units of the American Volunteer Group (Flying Tigers) and came out with plane loads of men women and children. The planes used were Douglas DC-3s.

     Ziegler was born in Franklin, Pa., and attended Pen State for two years before enrolling at Maxwell Field. He holds a second lieutenant’s commission in the Army Air Corps Reserve.

Buffalo Courier Express, Vol. CVIII, No. 99, Tuesday 27 October 1942, Page 7 Column 1 and 2

On 22 December 1942, Ziegler registered for Selective Service (conscription). His draft card describes him as 6 feet, 1 inch (185 centimeters) tall, 170 pounds (77 kilograms), with brown hair, gray eyes, and a ruddy complexion.

Motor Trouble caused Test Pilot Jean L. Ziegler to crash land a Curtiss-Wright P-40 at the municipal airport Friday afternoon. He was unhurt. The plane was damaged slightly. Gasoline in an auxiliary tank ignited but firemen of Engine 27 quickly put out the flames.

Buffalo Evening News, Vol CXXV, No. 93, Saturday, 30 January 1943, Page 3, Column 3

At 4:00 p.m., 13 March 1943, Jean LeRoy Ziegler married Miss Flora Mae Thompson at the Endeavor Presbyterian Church, in their hometown of Endeavor, Pennsylvania. The ceremony was officiated by Reverend Taylor. Miss Thompson was a fellow student at Endeavour High School. She was trained as a nurse at the Millard Fillmore Hospital in Buffalo, New York. At the time of their marriage, she had been employed there for one year. The couple would have three daughters, Sandra, Patricia, and Mary.

Skip Ziegler’s Curtiss-Wright XP-40Q-2A-CU, NX300B (ex-USAAF P-40K-1-CU 45-45722), circa September 1947. (Military Matters)

On 1 September 1947, Skip Ziegler was involved in an interesting incident at the National Air Races in Cleveland, Ohio. Flying his Curtiss-Wright XP-40Q-2A-CU Warhawk, NX300B, he had qualified in thirteenth place for the twelve airplane field in the Thompson Trophy Race. But a faster airplane, NACA test pilot Howard Clifton  “Tick” Lilly’s Bell P-63A-7-BE King Cobra, NX69901 (42-69063), flown by William Bour, which had qualified, was also in earlier race. With only ten minutes between the two races, starters thought that P-63 might not be ready in time for the start of the Thompson. They allowed Ziegler to take the seventh place in the starting lineup.

Bour did make it to the starting line in time, but officials failed to tell Ziegler to withdraw. The twelve-airplane race started with thirteen airplanes.

During the fourteenth lap of the twenty-lap race, Ziegler was in fourth place when the engine of his XP-40Q caught fire. He bailed out in front of the viewing grandstands and parachuted to the ground, suffering a broken leg. His airplane crashed and was destroyed. (This was the second crash during the race. Only six airplanes finished.) Cook Cleland won the Thompson Trophy with his #74 Goodyear F2G-2 Corsair, N5577N (Bu. No. 88463).

By 1949, Ziegler and his family had moved to Los Angeles, California, where he was employed as a test pilot for North American Aviation, Inc. On 26 September 1949, he took off from Vultee Field, Downey, California, on the first flight of the XT-28, 48-1371, the first of two prototype trainers for the U. S. Air Force. This would go into production as the T-28A Trojan.

XT-28 48-1471 landing at Edwards AFB 3 Feb 1950
The first of two prototype North American Aviation XT-28s, 48-1371, lands at Edwards Air Force Base, 3 February 1950. (U.S. Air Force)

On 1 October 1950, Ziegler became the chief test pilot for the Bell Aircraft Corporation. He was involved in testing Bell’s experimental aircraft at Edwards Air Force Base in California.

On 20 June 1951, he took the experimental variable-sweep Bell X-5, 50-1838, for its first flight. Ziegler would deploy the X-5’s variable sweep wings in flight for the first time on 27 July 1951.

The Bell X-5 had variable sweep wings. (U.S. Air Force 151021-F-DW547-002)

Three days earlier, 24 July 1951, Ziegler made the first glide flight in the new Bell X-1D, 48-1386. This was a second-generation supersonic rocketplane built of the Air Force. This research aircraft was instrumented for the investigation of aerodynamic heating. Its nose gear was damaged on landing. This would be the X-1D’s only successful free flight. On 22 August 1951, following an internal explosion, it was jettisoned from its EB-50A mother ship and destroyed on impact with the desert floor.

Bell X-1D 48-1386. (Bell Aircraft Corporation)

On 8 October 1951, Ziegler made the twentieth and final contractor’s flight of the X-5 before turning over to its Air Force test pilot, Major Frank Kendall (“Pete”) Everest.

On 27 June 1952, Ziegler made the first glide flight of the new, swept-wing Bell X-2 Mach 3 research rocketplane. The second X-2, 46-675, was the first of the two to fly.

Bell X-2 46-675 after nose gear collapsed on landing at Edward Air Force Base, California, 27 June 1952. Bell Aircraft Corporation test pilot Jean Leroy (“Skip”) Zielgler is still seated in the cockpit. (National Aeronautics and Space Administration, Armstrong Flight Research Center, E-749)

On 14 February 1953, the Bell X-1A, 48-1387, made its first first powered flight with Skip Ziegler in the cockpit. The X-1A, like the X-1D, was a second second generation version of the X-1 series. Originally ordered by the Air Force, it had been taken over by the National Advisory Committee for Aeronautics (NACA). Delays caused by a redesign of the fuel system and lack of funding resulted in it being competed three years behind schedule.

Bell X-1A 46-1384 (U.S. Air Force)

Ziegler demonstrated the successful operation of the X-1A with all four chambers of its Reaction Motors XLR-11-RM-5 rocket engine on 26 March 1953. During a flight on 10 April 1953, Ziegler encountered a low-frequency vibration in its elevators, limiting the rocketplane to 0.93 Mach. During another flight on 25 April 1953, the X-1A’s fuel system turbopump oversped. Ziegler shut down the rocket engine and jettisoned the remaining fuel before gliding to a landing.

As described above, Jean LeRoy Ziegler was killed on 13 May 1953 as a result of an internal explosion of the second Bell X-2. His body was never recovered.

© 2025, 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

12 May 1938

Aviation, , , , , , , , , , , , ,
U.S. Army Air Corps YB-17 Flying Fortresses numbers 80 and 82 fly alongside S.S. Rex, 620 nautical miles east of Sandy Hook, 12 May 1938. (Photograph by Major George W. Goddard, U.S. Army Air Corps)

12 May 1938: Three Boeing B-17 Flying Fortress four-engine heavy bombers of the 49th Bombardment Squadron, 2nd Bombardment Group, departed Mitchel Field, Long Island, New York, in heavy rain and headed eastward over the Atlantic Ocean. Their mission, assigned by Major General Frank M. Andrews, commanding General Headquarters, U.S. Army Air Corps, was to locate and photograph the Italian passenger liner, S.S. Rex, then on a transatlantic voyage to New York City. The purpose was to demonstrate the capabilities and effectiveness of long-range bombers.

Boeing YB-17 Flying Fortress 36-151, 42nd Bombardment Squadron, 2nd Bombardment Group, Number 80, in flight over New York City, 28 March 1937. The Art Deco skyscraper behind the bomber is the Chrysler Building, 1,046 feet (319 meters) tall. (American Air Museum in Britain)

The flight was led by Major Caleb Vance Haynes, commanding officer of the 49th Bombardment Squadron, flying B-17 number 80. The 2nd Bomb Group commanding officer, Lieutenant Colonel Robert Olds, was aboard Haynes’ B-17, along with an NBC radio crew to broadcast news of the interception live across the country. Reporters from the New York Times and the New York Herald Tribune were aboard the other airplanes.

1st Lieutenant Curtis Emerson LeMay, Air Corps, United States Army.

The planning of the interception and in-flight navigation was performed by First Lieutenant Curtis E. LeMay. Position reports from S.S. Rex were obtained and forwarded to LeMay as the aircraft were taxiing for takeoff.

The flight departed Mitchel Field at 8:45 a.m. They encountered heavy rain, hail, high winds and poor visibility, but at 12:23 p.m., the Flying Fortresses broke out of a squall line and the passenger liner was seen directly ahead. They flew alongside the ship at 12:25 p.m., 620 nautical miles (1,148.24 kilometers) east of Sandy Hook, New Jersey. They were exactly on the time calculated by Lieutenant LeMay.

The B-17s made several passes for still and motion picture photography while NBC broadcast the event on radio.

Colonel Olds would rise to the rank of Major General and command 2nd Air Force during World War II. He was the father of legendary fighter pilot Brigadier General Robin Olds. Major Hayes served in various combat commands and retired at the rank of Major General in 1953.

Curtis LeMay would be a major in command of the 305th Bombardment Group, a B-17 unit, at the beginning of World War II. He personally led many combat missions over Europe, and would command the 4th Bombardment Wing, then the 3rd Air Division. By the end of the war, he was in command of XXI Bomber Command based in the Marianas Islands. From 1948 to 1957, General LeMay commanded the Strategic Air Command. He served as Vice Chief of Staff of the Air Force., 1957–1961. General LeMay was Chief of Staff, United States Air Force, from 1961 to 1965.

At the time of the interception of the Rex, there were only 12 B-17s in the Air Corps inventory: the original Y1B-17 service development airplanes. By the end of production in 1945, 12,731 B-17 Flying Fortress bombers had been built by three aircraft manufacturers.

Boeing YB-17 Flying Fortress 36-149. (U.S. Air Force)
Boeing Y1B-17 Flying Fortress 36-149. (U.S. Air Force)

The Boeing B-17 (Model 299B, previously designated Y1B-17, and then YB-17) was a pre-production service test prototype. Thirteen had been ordered by the Air Corps. It was 68 feet, 4 inches (20.828 meters long with a wingspan of 103 feet, 9 inches (31.633 meters) and the overall height was 18 feet, 4 inches (5.588 meters).

Boeing YB-17 36-149. (U.S. Air Force)

The YB-17 was powered by four air-cooled, supercharged 1,823.129-cubic-inch-displacement (29.876 liter) Wright Aeronautical Division Cyclone G59 (R-1820-51) nine-cylinder radial engines with a compression ratio of 6.45:1. The R-1820-51 had a Normal Power rating of 800 horsepower at 2,100 r.p.m. at Sea Level, and 1,000 horsepower at 2,200 r.p.m. for Takeoff, burning 100-octane gasoline. A long carburetor intake on top of the engine nacelles visually distinguishes the YB-17 from the follow-on YB-17A. The engines drove three-bladed Hamilton Standard constant-speed propellers through a 0.6875:1 gear reduction. The R-1820-51 was 3 feet, 9.06 inches (1.145 meters) long and  4 feet, 6.12 inches (1.375 meters) in diameter. It weighed 1,200.50 pounds (544.54 kilograms).

Boeing YB-17 36-149. (U.S. Air Force)

The YB-17 had an empty weight of 24,465 pounds (11,097 kilograms), gross weight of 34,880 pounds (15,821 kilograms) and maximum takeoff weight of 42,600 pounds (19,323 kilograms). The maximum speed was 256 miles per hour (412 kilometers per hour) at 14,000 feet (4,267 meters). Its service ceiling was 30,600 feet (9,327 meters) and the maximum range was 3,320 miles (5,343 kilometers).

The YB-17 could carry 8,000 pounds (3,629 kilograms) of bombs. Defensive armament consisted of five air-cooled Browning .30-caliber machine guns.

Boeing YB-17 36-149. (U.S. Air Force)

© 2019, Bryan R. Swopes

12 May 1902

Aviation, , , , , , , , , ,
Augusto Severo de Albuquerque Maranhão. (Musée de l'air)
Augusto Severo de Albuquerque Maranhão. (Musée de l’air)

12 May 1902: Aeronaut Augusto Severo de Albuquerque Maranhão and engineer Georges Saché lifted off aboard the semi-rigid airship Pax, which Severo had designed, at Vaugirard, Paris.

This was Severo’s second airship. He had designed and built a larger craft, Bartolomeu de Gusmão, eight years earlier in Brazil. It had been destroyed by gusty winds. After raising enough money to build a new ship, he went to Paris, France. His new airship was a semi-rigid keel-and-girder type. The envelope was silk but it was given some rigidity by a structure of bamboo.

The craft was approximately 30 meters (98.4 feet) long and 12.4 meters (40.7 feet) in diameter. The volume of the hydrogen gas used for buoyancy was about 2,330 cubic meters (82,283 cubic feet). A gondola was suspended below.

Though he had planned to power the craft with electric motors and batteries, time and money forced Severo to substitute internal combustion engines. Pax was propelled by two Société Buchet engines, with a 24-horsepower engine driving a 6 meter (19.7 feet), two-bladed propeller in a pusher configuration at the rear, and a second, 16 horsepower engine driving a 5 meter (16.4 feet) propeller in tractor configuration at the front of the airship. The propellers turned at 50 r.p.m.

Augusto Severo had designed both of his airships with a new method which increased their stability in flight. The gondola, rather than being suspended by ropes or cables, was rigidly attached to the envelope above with a structure of bamboo. This structure continued inside the envelope from front to rear and formed a trapezoid. This prevented the oscillation that was common with a more flexible arrangement.

Alberto Santos-Dumont with Augusto Severo and Georges Saché , 12 May 1902.
Alberto Santos-Dumont with Augusto Severo and Georges Saché, 12 May 1902.

Very early on the morning of 12 May 1902, Augusto Severo took his new airship on its first flight. It soon reached approximately 1,200 feet (365 meters). It then exploded, caught fire and fell to the ground near Monteparnasse Cemetery. The descent took approximately 8 seconds. Both men were killed.

 A contemporary newspaper article reported the accident:

AIRSHIP DISASTER.

M. SEVERO AND HIS ASSISTANT KILLED.

TERRIBLE SCENE IN MID-AIR

At an early hour one morning recently all Paris was startled by the report that M. Severo, the Brazilian deputy, and his assistant, M. Sachet, had been killed while making an excursion in the steerable balloon Pax.

M. Severo and his mechanician left the balloon shed, which is behind the Montparnasse Railway Station, at half-past five in the morning in the Pax. The Brazilian, in his eagerness to make the free ascent, had slept alongside the balloon for the last few nights, waiting until the weather should be entirely propitious.

At daybreak he decided that the favourable moment had arrived. Workmen were hastily summoned, the last preparations completed, and the motors started. The Pax left the shed of M. Lachambre for her first free voyage in the air.

The airship Pax outside its shed in Paris.
The airship Pax outside its shed in Paris.

The Brazilian deputy, who was naturally of a gay and genial temperament, was delighted with the ideal morning. He and M. Sachet got the machinery ready, while M. Lachambre and his assistants held on the guide-rope, until Pax should be clear of the surroundings.

As M. Severo cried “Let go!” amid much fluttering of handkerchiefs the Pax rose quietly and steadily, and the calm, blue sky seemed to promise a pleasant excursion.

The propellers are turning as Pax is readied to ascend, 12 May 1902.
The propellers are turning as Pax is readied to ascend, 12 May 1902.

For the first few minutes all went well, and the motors seemed to be working satisfactorily. The airship answered the helm readily and admiring exclamations rose from the crowd. “Let’s follow her,” cried those on bicycles and motor-cars, and immediately a mad race commenced in the direction taken by the balloon.

Pax ascends on the morning of 12 May 1902.
Pax ascends on the morning of 12 May 1902.

But as the Pax rose higher she was seen to fall off from the wind, while the aeronaut could be seen vainly endeavouring to keep her head on.

Then M. Severo commenced throwing out ballast, and M. Lachambre, anxiously watching the balloon from his premises remarked that something had evidently gone wrong.

THE AIRSHIP IN FLAMES.

All this time the Pax was gradually soaring higher and higher, until, just as the balloon was over the Montparasse cemetery, at the height of probably 2000ft, a sheet of flame was seen to shoot up from one of the motors, and instantly the immense silk envelope, containing 9000 cubic feet of hydrogen gas, was enveloped in leaping tongues of fire.

The aeronauts were distinctly seen to be gesticulating despairingly, but no mortal aid could reach them.

As soon as the flames came in contact with the gas, a tremendous explosion followed, an din an instant all that was left of the beautiful airship fell with lightning swiftness to the earth.

After the hydrogen explodes, burning pieces of the airship Pax fall to the city street below, 5:40 a.m., 12 May 1902..
After the hydrogen explodes, burning pieces of the airship Pax fall to the city street below, 5:40 a.m., 12 May 1902.

“I shall never be able to forget the awful sight,” said a spectator; “it made me dizzy, and I was compelled to turn my head away. When I looked again everything had disappeared, and all the people in the street were running towards the spot where the balloon had fallen.

“When I reached the Avenue du Maine the Pax, mangled beyond description, was lying across the street almost at the corner of the Rie de la Gaite, and the two ill-fated passengers lay dead amid the ruins. M. Severo had fallen on his feet. The upper part of his face was uninjured, but blood was flowing from his mouth an dears. The lower part of his body was crushed and horribly mutilated.

“Near him was Sachet, who had fallen on his face, which was dreadfully burned and congested. His hands, and, in fact, his whole body were covered with blisters where he had been burned, and he had also sustained several fractures. It was a gruesome sight, and it must have been a fearful death.”

Crash site of the airship Pax.
Crash site of the airship Pax.

A TERRIFIC REPORT.

“The noise of the explosion,” declared one spectator, “made me jump out of bed. I thought of Martinique and wondered if out turn had come, and when I ran to the window, there were two men lying, crushed beneath the remainder of the balloon.”

Another bystander told how Mme. Severo, wife of the aeronaut, whom he had laughingly kissed only twenty minutes before he met his death, fell unconscious to the ground as she witnessed the calamity which overtook her husband.

Poor woman! He had embarked his all in the airship which carried him to his death, and now she is left with seven children and no resources.

M. SANTOS DUMONT’S OPINION.

“I cannot tell you how very sorry I feel at what has happened, ” says M. Santos Dumont, “but I am not greatly surprised. M. Severo did not know anything about airships. He had only been up once or twice in his balloon, and was quite incapable of managing it. The fact that he commenced throwing out ballast when the balloon was going up showed how little he knew.

“Then his escape-valve was only about three yards from the motor, and my opinion is that, as in going up the balloon dilates and the gas must escape through the valve, in so escaping it came in contact with the motor, which was far too near the balloon, and that caused the explosion. Or if the valve did not work, the balloon may have burst and the gas immediately took fire; but a balloon must be built very stupidly to catch fire.

“From the construction of the Pax, however, it seems to me as if it had been made on purpose to kill somebody.”

M. Severo was thirty-eight years old and a member of the Brazilian Parliament. After the catastrophe his watch was found flattened in his waistcoat pocket. It had stopped at 5.40 a.m., the moment of the accident. The body will be taken to Rio Janeiro for interment. His fellow victim, the mechanic Sachet, was only twenty-five years of age and unmarried.

The balloon which began and ended its career in disaster was cigar-shaped, 100ft long, and 36ft in diameter. It was driven by screw fore and aft.

The Star, Christchurch, New Zealand, Monday 30 June 1902, No. 7411, Page 2, Column 7. (The photographic images are from other sources and were not a part of the newspaper article.)

© 2015, Bryan R. Swopes

11 May 1964

Aviation, , , , , , , ,
XB-70A-1-NA 62-0001 rollout at Air Force Plant 42, 11 May 1964. (North American Aviation, Inc.)

11 May 1964: At Air Force Plant 42 near Palmdale, a small city in the high desert of southern California, the first prototype North American Aviation XB-70A-1-NA Valkyrie, 62-0001, was rolled out. More than 5,000 people were there to watch.

In August 1960, the U.S. Air Force had contracted for one XB-70 prototype and 11 pre-production YB-70 development aircraft. By 1964, however, the program had been scaled back to two XB-70As and one XB-70B. Only two were actually completed.

“Ride of the Valkyrs” by John Charles Dollman, 1909. In Norse mythology, the valkyries were immortal female figures who chose who among those who had died in battle were worthy of being taken to Valhalla.

The B-70 was designed as a Mach 3+ strategic bomber capable of flying higher than 70,000 feet (21,336 meters). Like its contemporaries, the Lockheed Blackbirds, the Valkerie was so advanced that it was beyond the state of the art. New materials and processes had to be developed, and new industrial machinery designed and built.

The XB-70A is a very large aircraft with a canard-delta configuration, built primarily of stainless steel and titanium. It has twin vertical fins combining the functions of stabilizers and rudders. The XB-70A Valkyrie prototype is 193 feet, 5 inches (58.953 meters) long, including the pitot boom, with a wingspan of 105 feet, 0 inches (32.004 meters) and overall height of 30 feet, 9 inches (9.373 meters). The canard span is 28 feet, 10 inches (8.788 meters). The canard has flaps, while the delta wing used multiple separate elevons for pitch and roll control.

North American Aviation XB-70A-1-NA Valkyrie takes off at Edwards Air Force Base, 17 August 1965. (NASA)

The delta wing has an angle of incidence of 0° and its leading edges are swept to 65.57°, with 0° sweep at the trailing edge. The wings have a maximum of -2.60° of twist. The wings of 62-001 have no dihedral, but the second B-70, 62-0207, had 5° dihedral. The total wing area is 6,297.8 square feet (585.1 square meters).

The canard also has 0° of incidence and dihedral. Its leading edge is swept aft 31.70°, while the trailing edge sweeps forward 14.91°. The canard has a total area of 415.59 square feet (38.61 square meters). The canard flaps can be lowered to 20°.

The vertical fins have a height of 15 feet (4.572 meters). The leading edges are swept 51.77° and the trailing edges, 10.89°.

The B-70 was designed to “surf” on its own supersonic shock wave (this was called “compression lift”). The outer 20 feet (6.096 meters) of each wing could be lowered to a 25° or 65° angle for high speed flight. Although this did provide additional directional stability, it actually helped increase the compression lift, which supported up to 35% of the airplane’s weight in flight.

North American Aviation XB-70A-1-NA Valkyrie 62-0001. (U.S. Air Force)

The first prototype, 62-001, had an empty weight of 231,215 pounds (104,877 kilograms), and its maximum takeoff weight was 521,056 pounds (236,347 kilograms).

The XB-70A is powered by six General Electric YJ93-GE-3 engines, grouped together in the tail. These are single-spool, axial-flow, afterburning turbojet engines, which have an 11-stage compressor section and 2-stage turbine. The YJ93-GE-3 has a normal power rating of 17,700 pounds of thrust (78.734 kilonewtons); military power, 19,900 pounds (88.520 kilonewtons); and maximum power, 28,000 pounds (124.550 kilonewtons). All ratings are at 6,825 r.p.m. and are continuous. A special high-temperature fuel, JP-6, is required. The engine is 19 feet, 8.3 inches (6.002 meters) long, 4 feet, 6.15 inches (1.375 meters) in diameter, and weighs 5,220 pounds (2,368 kilograms).

Test firing one the 62-001’s General Electric YJ93-GE-3 afterburning turbojet engines. (LIFE Magazine)

62-0001 had a cruise speed of 1,089 knots (1,253 miles per hour/2,016 kilometers per hour) at 35,000 feet (10,688 meters), and maximum speed of 1,721 knots (1,980 miles per hour/3,187 kilometers per hour) at 79,050 feet (24,094 meters)—Mach 2.97. During flight testing, the XB-70A reached a maximum of Mach 3.08 (1,777 knots) with a sustained altitude of 74,000 feet (22,555 meters).

Fuel was carried in 11 internal tanks in the wings and fuselage and the maximum capacity was 43,646 gallons (165,218 liters), giving the bomber a combat range of 3,786 nautical miles (4,357 statute miles/7,012 kilometers).

The B-70 was designed to carry two B-53 two-stage radiation-implosion thermonuclear bombs in its internal bomb bay. A maximum of fourteen smaller weapons could be carried.

XB-70A-1 62-0001 first flew 21 September 1964, and exceeded Mach 3 for the first time on its 17th flight, 14 October 1965. Its final flight was 4 February 1969.

The second prototype, XB-70A-2-NA 62-0207, was destroyed in a midair collision. The third Valkyrie, XB-70B-NA 62-0208, was cancelled before completion.

62-0001 is in the collection of the National Museum of the United States Air Force. It has made 83 flights with just 160 hours, 16 minutes, total flight time.

XB-70A-1-NA Valkyrie 62-0001 in cruise at very high altitude, 1968. (NASA)
XB-70A-1-NA Valkyrie 62-0001 in cruise at very high altitude, 1968. (NASA)

© 2019, Bryan R. Swopes