Tag Archives: First Flight

18 January 1906

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Graf von Zeppelin's LZ 2 at Lake Constance, 1906. (RAF Museum)
Graf von Zeppelin’s LZ 2 at Lake Constance, 1906. (RAF Museum)

17 January 1906: Ferdinand Adolf Heinrich August Graf von Zeppelin’s second airship, Luftschiff Zeppelin 2, designed by Ludwig Dürr, made its first—and only—flight, at Lake Constance (Bodensee), a large lake at the base of Alps.

Ludwig Dürr (1878–1956)
Ludwig Dürr (1878–1956)

LZ 2 was 127 meters (416 feet, 8 inches) long and 11.70 meters (38 feet, 5 inches) in diameter. It had a volume of 10,400 cubic meters (367,273 cubic feet). The rigid structure was built of triangular-section girders that combined light weight and strength. Hydrogen gas contained in bags inside the airship’s envelope gave it buoyancy.

Ladislas d’Orcy described the airship:

. . . Hull-frame of aluminum-alloy lattice girders, cross-braced by wire stays, and subdivided into compartments for independent gas-cells. No ballonets. Fabric skin. Trim controlled by lifting planes. Cars rigidly connected. Gangway affording passage between the cars.

D’Orcy’s Airship Manual, by Ladislas d’Orcy, M.S.A.E., The Century Company, New York, 1917, at Page 127

The airship was powered by two 85 horsepower Daimler-Motoren-Gesellchaft gasoline-fueled engines designed by Karl Maybach. They turned four three-bladed propellers at 820 r.p.m. It was capable of reaching 40 kilometers per hour (25 miles per hour). The airship’s ceiling was 2,800 feet (853 meters).

L’AÉROPHILE reported:

Une nouvelle sortie—la derniére—eut lieu le jeudi 18 janvier 1906. Parti de son garage et parvenu à 500 mètres environ, le ballon était désemparé, et après avoir passé au-dessus de Raverasburg, Kisslegg et Sommerstadt, venait s’abattre en territoire suisse, à Allgaen. Certains correspondants assurent qu’il était monte par l’inventeur, , des officiers allemands et des hommes d’équipage qui n’eurent pas de mal. Mais, dans la chute, das avaries irréparables se produisirent si bien que le comte Zeppelin, decouragé, ne continuera pas ses essais. ¹

L’AÉROPHILE, 14º Année, Noº 1, Janvier 1906, at Page 32

THE CINCINNATI ENQUIRER reported:

AERONAUT’S ILL LUCK.

CABLE TO THE ENQUIRER AND N. Y. HERALD.

(Copyright, 1906, by N. Y. Herald Company.)

     Berlin, January 18.—Count Zeppelin made a second trial to-day with hi snew airship. Starting from Lake Constance, the airship passed over Ravensberg, Kisslegg and Sommersledat and landed at Allgaen. It was seriously damaged in the storm, and further trials will be impossible at present.

THE CINCINNATI ENQUIRER, Vo. LXIII, No. 10, Friday, 19 January 1906, Page 2. Column 1

An engine failure forced the ship to make an emergency landing close to a small town named Sommersried, Allgäu, in southern Germany, and was so badly damaged by a storm during the night that it had to be scrapped.

Wreckage of LZ 2.
Wreckage of LZ 2.

¹ Google Translation: “A new exit-the last-took place on Thursday, January 18, 1906. From his garage and reached about 500 meters, the balloon was clueless/distraught, and after passing over Raverasburg, Kisslegg and Sommerstadt, came crashing down in Swiss territory, in Allgaen. Some correspondents assert that he was mounted by the inventor, German officers and crewmen who were not hurt. But in the fall, irreparable damage occurred so that Count Zeppelin, discouraged, did not continue his attempts.”

© 2019, Bryan R. Swopes

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14 January 1953

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Convair XF2Y-1 Sea Dart Bu. No. 137634 during high-speed taxi on San Diego Bay (National Naval Aviation Museum)

14 January 1953: During a high-speed taxi test on San Diego Bay, Convair Chief Test Pilot Ellis Dent (“Sam”) Shannon inadvertently made the first flight of the prototype XF2Y-1 Sea Dart, Bu. No. 137634. The airplane flew approximately 1,000 feet (305 meters) across the bay.

Sam Shannon with the Convair XF2Y-1 Sea Dart. (Image courtesy of Neil Corbett, Test and Research Pilots, Flight Test Engineers)

The Sea Dart was a prototype single-seat, twin-engine, delta-winged fighter designed and built by the Convair Division of General Dynamics Corporation at San Diego, California. It was equipped with retractable skis in place of ordinary landing gear to allow it to take off and land on water, snow or sand.

The XF2Y-1 was 52 feet, 7 inches (16.027 meters) long with a wingspan of  33 feet, 8 inches (10.262 meters) and height of 16 feet, 2 inches (4.928 meters) with the skis retracted. The airplane had an empty weight of 12,625 pounds (5,727 kilograms) and maximum takeoff weight of 21,500 pounds (9,752 kilograms).

Convair XF2Y-1 Sea Dart Bu. No. 137634 in flight over San Diego, California. (National Naval Aviation Museum)

The prototype XF2Y-1 was powered by two Westinghouse J34-WE-32 single-shaft axial-flow turbojet engines. The engine used an 11-stage compressor and 2-stage turbine. It was rated at 3,370 pounds (14.99 kilonewtons) of thrust, and 4,900 pounds (21.80 kilonewtons) with afterburner. The J34-WE-32 was 15 feet, 4.0 inches (4.674 meters) long, 2 feet, 1.6 inches (0.650 meters) in diameter, and weighed 1,698 pounds (770.2 kilograms).

The YF2Y-1 service test prototypes that followed were powered by Westinghouse XJ46-WE-2 engines. The J46 was also a single-shaft axial-flow turbojet, but had a 12-stage compressor and 2-stage turbine. These were rated at 4,080 pounds of thrust  (18.15 kilonewtons), and 6,100 pounds (27.13 kilonewtons) with afterburner. The J46-WE-2 was 15 feet, 11.7 inches (4.869 meters) long, 2 feet, 5.0 inches (0.737 meters) in diameter and weighed 1,863 pounds (845 kilograms).

The YF2Y-1 service test aircraft had a maximum speed of 695 miles per hour (1,118 kilometers per hour) at 8,000 feet (2,438 meters), and 825 miles per hour (1,328 kilometers per hour)—Mach 1.25— at 36,000 feet (10,973 meters). The service ceiling was estimated at 54,800 feet (16,073 meters), and the range was 513 miles (826 kilometers).

There was one XF2Y-1 and four YF2Y-1 aircraft built, but only two of the service test aircraft ever flew. The XF2Y-1 prototype is in storage at the Smithsonian Institution National Air and Space Museum’s restoration facility. One YF2Y-1, Bu No. 135763, is displayed at the San Diego Air and Space Museum, and another, Bu. No. 135764, is in the collection of the Harold F. Pitcairn Wings of Freedom Aviation Museum at Horsham, Pennsylvania, about 30 minutes north of Philadelphia.

Convair XF2Y-1 Sea Dart Bu. No. 137634 taxis to the seaplane ramp at the north end of San Diego Bay. (National Naval Aviation Museum)

Ellis Dent Shannon was born at Andalusia, Alabama, 7 February 1908. He was the third of five children of John William and Lucy Ellen Barnes Shannon.

He was commissioned as a second lieutenant the Alabama National Guard (Troop C, 55th Machine Gun Squadron, Cavalry) 21 May 1926. He transferred to the Air Corps, United States Army, in 1929. In 1930, he was stationed at Brooks Army Airfield, Texas.

Lieutenant Ellis Dent Shannon, Air Corps, United States Army

In 1932 Shannon was was assigned as a flight instructor and an aviation advisor to the government of China.

On 24 December 1932, Shannon married Miss Martha Elizabeth Reid at Shanghai, China. They had son, Ellis Reid Shannon, born at Shanghai, 24 August 1934, and a daughter, Ann N. Shannon, born at Baltimore, Maryland, in 1940.

Shannon and his family returned to the United States in 1935 aboard SS Bremen, arriving at New York.

He was employed by the Glenn L. Martin Co., Baltimore, Maryland, in 1936 as a test and demonstration pilot. He traveled throughout Latin America, demonstrating the company’s aircraft. As a test pilot, he flew the Martin Model 187 Baltimore, the B-26 Marauder, PBM Mariner and the Martin JRM Mars.

In February 1943, Shannon started working as a Chief of Flight Research for the Consolidated Aircraft Company at San Diego, California. While there, made the first flights of the Consolidated XB-24K, a variant of the Liberator bomber with a single vertical tail fin; the XR2Y-1, a prototype commercial airliner based on the B-24 Liberator bomber; the XB-46 jet-powered medium bomber; the XP5Y-1 Tradewind, a large flying boat powered by four-turboprop-engines; the Convair 340 Metropolitan airliner; and the XF-92A, a delta-winged proof-of-concept prototype. Shannon also participated in the flight test program of the YF-102A Delta Dart.

After retiring from Convair in 1956, Ellis and Martha Shannon remained in the San Diego area.

Ellis Dent Shannon died at San Diego, California, 8 April 1982 at the age of 74 years.

Ellis Dent Shannon, Convair Chief Test Pilot, circa 1953. (Photograph courtesy of Neil Corbett, Test and Research Pilots, Flight Test Engineers)

© 2018 Bryan R. Swopes

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14 January 1950

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This is the second Mikoyan Gurevich I 330 prototype, SI 02.
This is the second Mikoyan Gurevich I 330 prototype, SI 02.

14 January 1950: The Mikoyan Gurevich prototype fighter I 330 SI made its first flight with test pilot Ivan Ivashchenko. It would be developed into the MiG 17.

The MiG 17 was an improved version of the earlier MiG 15. It was a single-seat, single engine fighter armed with cannon, and capable of high subsonic and transonic speed.

Mikoyan Gurevich MiG 17.
Mikoyan Gurevich MiG 17.

The prototype’s wings were very thin and this allowed them to flex. The aircraft suffered from “aileron reversal,” in that the forces created by applying aileron to roll the aircraft about its longitudinal axis were sufficient to bend the wings and that caused the airplane to roll in the opposite direction.

The first prototype I 330 SI developed “flutter” while on a test flight, 17 March 1950. This was a common problem during the era, as designers and engineers learned how to build an airplane that could smoothly transition through the “sound barrier.” The rapidly changing aerodynamic forces caused the structure to fail and the horizontal tail surfaces were torn off. The prototype went into an unrecoverable spin. Test pilot Ivashchenko was killed.

Two more prototypes, SI 02 and SI 03, were built. The aircraft was approved for production in 1951.

More than 10,000 MiG 17 fighters were built in the Soviet Union, Poland and China. The type remains in service with North Korea.

A MiG 17 in flight.
A MiG 17 in flight.
Иван Т. Иващенко летчик-испытатель
Иван Т. Иващенко летчик-испытатель

Ива́н Тимофе́евич Ива́щенко (Ivan T. Ivashchenko) was born at Ust-Labinsk, Krasnodar Krai, Russia, 16 October 1905. He served in the Red Army from 1927 to 1930. He graduated from the Kuban State University in 1932.

Ivashchenko was trained as a pilot at the Lugansk Military Aviation School at Voroshilovgrad, and a year later graduated from the Kachin Military Aviation College at Volgograd.

In 1939, he fought in The Winter War. During the Great Patriotic War, Ivan Ivashchenko flew with a fighter squadron in the defense of Moscow.

From 1940 to 1945, Ivan Ivashchenko was a test pilot. He trained at the M.M. Gromov Flight Research Institute at Zhokovsky, southeast of Moscow, in 1941. He was assigned to Aircraft Factory No. 18 at Kuibyshev (Samara) from 1941 to 1943. Ivashchenko flew the Ilyushin Il-2 Sturmovik fighter bomber extensively. From 1943 to 1945 he was a test pilot for Lavochkin OKB at Factory 301 in Khimki, northwest of Moscow.

In 1945 Ivashchenko was reassigned to OKB Mikoyan, where he worked on the development of the MiG 15 and MiG 17 fighters. He participated in testing ejection seat systems and in supersonic flight.

Ivan T. Ivashchenko was a Hero of the Soviet Union, and was awarded the Order of Lenin, Order of the Red Banner (two awards) and Order of the Patriotic War. Killed in the MiG 17 crash at the age of 44 years, he was buried at the Novodevichy Cemetery in Moscow.

© 2017, Bryan R. Swopes

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14 January 1942

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Les Morris at the controls of the Vought-Sikorsky VS-316A (XR-4, serial number 41-18874) on its first flight at Stratford, Connecticut, 13 January 1942. (SikorskyHistorical Archives)
Les Morris at the controls of the Vought-Sikorsky VS-316A (XR-4, serial number 41-18874) on its first flight at Stratford, Connecticut, 14 January 1942. (Sikorsky Historical Archives)

14 January 1942: Chief Test Pilot Charles Lester (“Les”) Morris (1908–1991) made the first flight of the Vought-Sikorsky VS-316A at Stratford, Connecticut. The first flight lasted approximately 3 minutes, and by the end of the day, Morris had made 6 flights totaling 25 minutes duration.

“One-half left front close-up head-and-shoulders view of test pilot Charles L. “Les” Morris posed seated in the cockpit of the Sikorsky VS-300 helicopter (r/n NX28996), March 29, 1943.” (Hans Groenhoff Photographic Collection, Smithsonian Institution National Air and Space Museum NASM-HGC-1408)

The VS-316A (which was designated XR-4 by the U.S. Army Air Corps and assigned serial number 41-18874), established the single main rotor/anti-torque tail rotor configuration. It was a two-place helicopter with side-by-side seating and dual flight controls.

The fabric-covered three-blade main rotor was 38 feet (11.582 meters) in diameter and turned counter-clockwise as seen from above. (The advancing blade is on the helicopter’s right.) The tail rotor was mounted to the aft end of the tail boom in a tractor configuration, and rotated counter-clockwise when seen from the helicopter’s right side.

The VS-316A was 33 feet, 11.5 inches (10.351 meters) long and 12 feet, 5 inches (3.785 meters) high. It weighed 2,010 pounds (911.7 kilograms) empty and the maximum gross weight was 2,540 pounds (1,152.1 kilograms).

The original engine installed in the VS-316A was an air-cooled, normally-aspirated, 499.805-cubic-inch-displacement (8.190 liter) Warner Aircraft Corporation Scarab SS-50 seven-cylinder radial  engine with a compression ratio of 5.55:1. The SS-50 was a direct-drive engine, with a maximum continuous power rating of 109 horsepower at 1,865 r.p.m., and 145 horsepower at 2,050 r.p.m. at Sea Level for takeoff. 73-octane gasoline was required. The SS50 was 2 feet, 5 inches (0.737 meters) long, 3 feet, 0-9/16 inches (0.929 meters) in diameter and weighed 306 pounds (139 kilograms).

gor Ivanovich Sikorsky and Charles Lester Morris with the XR-4 at Wright Field, Ohio, May 1942. (Sikorsky Historical Archives)
Orville Wright and Igor Ivanovich Sikorsky with the XR-4 at Wright Field, Ohio, May 1942. (Sikorsky Historical Archives)

Numerous modifications were made, including lengthening the main rotor blades, covering them with metal, and upgrading the engine to a 200 horsepower Warner R-550-1 Super Scarab. The XR-4 was redesignated XR-4C. This would be the world’s first production helicopter. It is at the Steven F. Udvar-Hazy Center of the Smithsonian National Air and Space Museum.

Sikorsky XR-4C 41-18874 at the National Air and Space Museum. (NASM)
Sikorsky XR-4C 41-18874 at the National Air and Space Museum. (NASM)

© 2019, Bryan R. Swopes

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10 January 1966

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The prototype Bell Model 206A JetRanger, serial number 1, civil registration N8560F, hovering out of ground effect. (Bell Helicopter Company)
The prototype Bell Model 206A JetRanger, serial number 1, civil registration N8560F, hovering out of ground effect. (Bell Helicopter Company)

10 January 1966: The prototype Bell Model 206A JetRanger serial number 1, N8560F, made its first flight at at the Bell Helicopter Company plant at Hurst, Texas. This aircraft would be in production for almost 45 years. The final JetRanger to be built, Bell 206B-3 serial number 4690, was delivered in December 2010 and production came to an end.

During early production of the Model 206A, cabin sections were built by Beechcraft and Agusta then shipped to Bell at Fort Worth. (The vertical seam just to the rear of the fuel cap distinguished the two.) Oil pressure and temperature gauges for the engine and transmission, the loadmeter and fuel quantity indicator were provided by Cessna.

The  Bell JetRanger is a 5-place, single-engine light civil helicopter based on the Bell Helicopter’s unsuccessful OH-4 entrant for the U.S. Army’s Light Observation Helicopter (LOH, or “loach”) contract. It is flown by a single pilot in the right front seat. Dual flight controls can be installed for a second pilot. The helicopter was certified for VFR flight, but could be modified for instrument flight.

The industrial design firm of Charles Wilfred Butler

“. . . was responsible for the complete redesign of the Bell OH-4A prototype army helicopter (1961) into the Bell Jet Ranger (1965). He and his designers restyled the machine inside and out in the manner of automotive design, creating in the process one of the world’s most successful and beautiful helicopters.”

Encyclopedia Britannica.

The JetRanger is 38 feet, 9.5 inches (11.824 meters) long, overall. On standard skid landing gear the overall height is 9 feet, 4 inches (2.845 meters). The Bell 206A has an empty weight of approximately 1,700 pounds (771 kilograms), depending on installed equipment. The maximum gross weight is 3,200 pounds (1,451.5 kilograms). With an external load suspended from the cargo hook, the maximum gross weight is increased to 3,350 pounds (1,519.5 kilograms).

The two-bladed main rotor is semi-rigid and under-slung, a common feature of Bell’s main rotor design. It has a diameter of 33 feet, 4.0 inches (10.160 meters) and turns counter-clockwise (seen from above) at 394 r.p.m. (100% NR). (The advancing blade is on the helicopter’s right side.) The rotor blade has a chord of 1 foot, 1.0 inches (0.330 meter) and 10° negative twist. The airfoil is symmetrical. The cyclic and collective pitch controls are hydraulically-boosted.

The first Bell 206B JetRanger (Bell Helicopter Co.)
The first Bell 206A JetRanger, N8560F. (Bell Helicopter Co.)

The two-bladed tail rotor assembly is also semi-rigid and is positioned on the left side of the tail boom in a pusher configuration. It turns at 2,550 r.p.m., clockwise, as seen from the helicopter’s left. (The advancing blade is below the axis of rotation.) The tail rotor diameter is 5 feet, 6.0 inches (1.676 meters).

The turboshaft engine is mounted above the roof of the fuselage, to the rear of the main transmission. Output shafts lead forward to the transmission and aft to the tail rotor 90° gear box. The transmission and rotor mast are mounted tilting slightly forward and to the left. This assists in the helicopter’s lift off to a hover, helps to offset its translating tendency, and keeps the passenger cabin in a near-level attitude during cruise flight.

A vertical fin is attached at the aft end of the tail boom. The fin is offset 4° to the right to unload the tail rotor in cruise flight. Fixed horizontal stabilizers with an inverted asymmetric airfoil are attached to the tail boom. In cruise flight, these provide a downward force that keeps the passenger cabin in a near-level attitude.

The 206A was powered by an Allison 250-C18 turboshaft engine (T63-A-700) which produced a maximum of 317 shaft horsepower at 104% N1, 53,164 r.pm. The improved Model 206B JetRanger and 206B-2 JetRanger II used a 370 horsepower 250–C20 engine, and the Model 206B-3 JetRanger III had 250-C20B, -C20J or -C20R engines installed, rated at 420 shaft horsepower at 105% N1, (53,519 r.p.m.). Many 206As were upgraded to 206Bs and they are sometimes referred to as a “206A/B.” The Allison 250-C20B has a 7-stage compressor section with 6-stage axial-flow stages, and 1 centrifugal-flow stage. The 4-stage axial-flow turbine has a 2-stage gas producer (N1) and 2-stage power turbine (N2). These were very light weight engines, ranging from just 141 to 173 pounds (64.0 to 78.5 kilograms).

The helicopter’s main transmission is limited to a maximum input of 317 shaft horsepower (100% Torque, 5-minute limit). The engine’s accessory gear unit reduces the output shaft speed to 6,016 r.p.m. N2, which is further reduced by the transmission’s planetary gears, and the tail rotor 90° gear box.

The JetRanger has a maximum speed, VNE, of 150 miles per hour (241 kilometers per hour) up to 3,000 feet (914 meters). Its best rate of climb, VY, is at 60 miles per hour (97 kilometers per hour) and best speed in autorotation (minimum rate of descent and maximum distance) is at 80 miles per hour (129 kilometers per hour), resulting in a glide ratio of about 4:1. The service ceiling is 13,500 feet (4,145 meters) with the helicopter’s gross weight above 3,000 pounds (1,361 kilograms), and 20,000 feet (6,096 meters) when below 3,000 pounds. The helicopter has a maximum range of 430 miles (692 kilometers).

After being used as a factory demonstrator and development aircraft, N8560F was retired from flight status and used as a maintenance ground training device at Bell’s training school at Hurst.

Note: The Model 206A-1 was adopted by the U.S. Army as the OH-58A Kiowa. Though very similar in appearance to the Model 206A and 206B, the OH-58A differs significantly. Few of the parts are interchangeable between the types.

Three view drawing of the Bell Model 206A/B JetRanger with dimensions. (Bell Helicopter TEXTRON)
Three view drawing of the Bell Model 206A/B JetRanger with dimensions. (Bell Helicopter TEXTRON)

© 2018, Bryan R. Swopes

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