Convair XB-58 55-0660 in its original paint scheme. (Unattributed)
11 November 1956: At Fort Worth, Texas, Convair’s Chief Test Pilot, Beryl Arthur Erickson, takes the first prototype XB-58, serial number 55-0660, on its first flight.
“Pilot B.A. Erickson is interviewed by NBC after a flight as part of a B-58 Press Show Demonstration. July 10, 1957″—Code One
The B-58 Hustler was a high-altitude Mach 2 strategic bomber which served with the United States Air Force from 1960 to 1970. It was crewed by a pilot, navigator/bombardier and a defensive systems operator, located in individual cockpits. The aircraft is a delta-winged configuration similar to the Convair F-102A Delta Dagger and F-106 Delta Dart supersonic interceptors.
The Hustler is 96 feet, 10 inches (29.515 meters) long, with a wing span of 56 feet, 10 inches (17.323 meters) and an overall height of 31 feet 5 inches (9.576 meters). The fuselage incorporates the “area rule” which resulted in a “wasp waist” or “Coke bottle” shape for a significant reduction in aerodynamic drag. The airplane’s only control surfaces are two “elevons” and a rudder, and there are no flaps.
The B-58’s delta wing has a total area of 1,542.5 square feet (143.3 square meters) and the leading edges are swept back at a 60° angle. The wing has an angle of incidence of 3° and 2° 14′ dihedral (outboard of Sta. 56.5).
The B-58A had an empty weight of 51,061 pounds (23161 kilograms), or 53,581 pounds (24,304 kilograms) with the MB-1 pod. The maximum takeoff weight was 158,000 pounds (71,668 kilograms).
Convair XB-58 Hustler 55-0660. (U.S. Air Force)
The B-58A was powered by four General Electric J79-GE-5 axial-flow afterburning turbojet engines, suspended under the wings from pylons. This was a single-shaft engine with a 17-stage compressor and 3-stage turbine. It had a Normal Power rating of 9,700 pounds of thrust (43.148 kilonewtons). The Military Power rating was 10,000 pounds (44.482 kilonewtons), and it produced a maximum 15,600 pounds (69.392 kilonewtons) at 7,460 r.p.m., with afterburner. The J79-GE-5 was 16 feet, 10.0 inches (5.131 meters) long and 2 feet, 11.2 inches (0.894 meters) in diameter. It weighed 3,570 pounds (1,619 kilograms).
Convair XB-58 Hustler 55-0660 rotates during a high-speed taxi test. (Code One)
The bomber had a cruise speed of 544 knots (626 miles per hour/1,007 kilometers per hour) and a maximum speed of 1,147 knots (1,320 miles per hour/2,124 kilometers per hour) at 67,000 feet (20,422 meters). The B-58A had a combat radius of 4,225 nautical miles (4,862 statute miles/7,825 kilometers). Its maximum ferry range was 8,416 nautical miles (9,685 statute miles/15,586 kilometers).
Convair XB-58 55-0660 carrying at jettisonable fuel/weapon centerline pod. (U.S. Air Force)
The B-58 weapons load was a combination of Mark 39, B43 or B61 thermonuclear bombs. The weapons could be carried in a jettisonable centerline pod, which also carried fuel. The four of the smaller bombs could be carried on underwing hardpoints. There was a General Electric M61 20 mm rotary cannon mounted in the tail, with 1,200 rounds of ammunition, and controlled by the Defensive Systems Officer.
FAI altitiude record setting Convair B-58A-10-CF 59-2456, showing the bomber’s weapons capability. (U.S. Air Force)
116 were built and they served the Strategic Air Command until January 1970 when they were sent to Davis-Monthan AFB, Tucson, Arizona for long-term storage.
Convair XB-58 55-0660 was transferred to Kelly Air Force Base, Texas, 15 March 1960, for use as a ground instruction airframe. It was scrapped some time later.
Convair XB-58 55-0660 touches down on the runway following a test flight. (Unattributed)
Dr.-Ing. Hermann Wurster (left of center, wearing goggles, flight helmet and parachute) with an early Bf 109. Second from right, the tall man wearing a flat cap and leather coat is Prof. Dr. Ing. e.h. Wilhelm Emil “Willy” Messerschmitt, the airplane’s designer. (Airbus Group)
11 November 1937: At Augsburg, Germany, Dr.-Ing. Hermann Wurster set a Fédération Aéronautique Internationale (FAI) World Record for Speed Over a 3 Kilometer Course when he flew a prototype Bayerische Flugzeugwerke AG Bf 109, D-IPKY, to an average speed of 610.95 kilometers per hour (379.63 miles per hour) in four passes over a 3-kilometer course.¹ This broke the speed record set two years earlier by Howard Hughes with his Hughes H-1 Special, NR258Y, by 43.83 kilometers per hour (27.23 miles per hour).²
Versuchsflugzeug 13, the BFW Bf 109 V13, Werk-Nr. 1050 (FAI records describe it as a Messerchmitt BF113, and contemporary news reports referred to it as the Messerschmitt BF 113R), was one of four prototypes built from production Junkers Jumo 210-powered Bf 109B airframes to test the Daimler-Benz AG DB 600 engine. It was given a civil registration, D-IPKY. Along with two Bf 109B fighters, V13 was part of an aerial demonstration team which was sent to the International Flying Meeting at Dübendorf, Switzerland, during the last week of July 1937. It was equipped with a Daimler-Benz DB 600 rated at 960 horsepower.
BFW Bf 109 V13, D-IPKY. Note the long air intake above the exhaust ports. (Unattributed)
On its return from Switzerland, V13 was prepared for a speed record attempt. It was given a standard drag reduction for racing airplanes, with all its seams filled and sanded smooth, and a coat of paint.
A modified version of the DB 601 engine was installed, reportedly capable of producing 1,660 horsepower for five minutes, with its maximum r.p.m increased from 2,500 to 2,800. It used special Bosch spark plugs. A three-bladed variable-pitch propeller was driven through gear reduction, although the gear ratio is unknown.
Left three-quarter view of the record-setting Bayerische Flugzeugwerke Bf 109 V13, D-IPKY. (Unattributed)
Like the Jumo 210, the Daimler-Benz 601 was a liquid-cooled, supercharged, single overhead cam, inverted 60° V-12, though with a much larger displacement. The DB 601 had a displacement of 33.929 liters (2,070.475 cubic inches). An improvement of the DB 600, the 601 series used direct fuel injection rather than a carburetor, and a hydraulically-driven two-speed supercharger.
A production Daimler-Benz DB 601 A had a compression ratio of 6.9:1 and was rated at 1,050 horsepower at 2,400 r.p.m. at 5.2 inches of pounds per square inch (0.36 Bar) of boost, for take-off (1 minute limit). It could produce 970 horsepower at 2,300 r.p.m. with 2.4 pounds per square inch (0.17 Bar) of boost at 12,000 feet (3,658 meters). Its propeller gear reduction ratio was 14:9. The DB 601 A was 67.5 inches (1.715 meters) long, 29.1 inches (0.739 meters) wide, and 40.5 inches (1.029 meters) high. It weighed 1,610 pounds (730.3 kilograms).
Bayerische Flugzeugwerke Bf 109 V13 D-IPKY without its identification markings. (Bayerische Flugzeugwerke Aktiengesellschaft)
The Bf 109E production variant was developed from V13.
In 1938, BFW became Messerschmitt AG. The Bf 109 (also commonly called the Me 109) was produced from 1937 to 1945. Total production was 33,894 aircraft, which amounted to 57% of total fighter production for Germany. Seven plants produced the 109 during World War II. After the war ended, Czechoslovakia produced a variant until 1948. Another Spanish-built variant, the Hispano Aviación HA-1112, remained in production until 1958.
Herman Wurster was born at Stuttgart, Germany, 25 September 1907. In 1926, he began studying aircraft at Königlich Bayerische Technische Hochschule München (TH Munich) and at TH Stuttgart (the Stuttgart Technology Institute of Applied Sciences). He earned a doctorate in engineering (Dr.-Ing.) in 1933. He then became the chief designer for the German Research Institute for Aviation (Deutschen Versuchsanstalt für Luftfahrt) in Berlin.
In 1935 and 1936, Dr.-Ing. Wurster was a test pilot for the Luftwaffe‘s testing site at Rechlin, Mecklenburg, Germany. From 1936 until 1943, he was the chief test pilot for Bayerische Flugzeugwerk and Messerschmitt at Augsburg. From 1943 until the end of the war, Wurster was responsible for the development of Messerschmitt’s rocket-powered surface-to-air guided missile, the Enzian E.1 and its variants.
After the war, Dr.-Ing. Wurster founded a building materials company at Nördlingen, Bavaria. He died in Augsburg 17 October 1985 at the age of 78 years.
A photograph of a Messerschmitt Bf 109G-6 during World War II. (Unattributed)
Jean Gardner Batten, C.B.E., 16 October 1936, photographed by Leo Lemuel White. (Whites Aviation Collection, Alexander Turnbull Library)
11 November 1935: During a record-setting flight from England to Brazil, Jean Gardner Batten ¹ became the first woman to fly solo across the South Atlantic Ocean, flying her Percival D.3 Gull Six, G-ADPR, from Dakar, Afrique occidentale française (French West Africa, now, Senegal) to Natal, Brazil. Her elapsed time of 13¼ hours was the fastest for the Atlantic crossing up to that time.
Straight line distance between Dakar and Natal: 1,865.71 miles (3,002.57 kilometers). (Google Maps)
On 7 May 1935, Jean Batten was honored with the distinction of Chevalier de la légion d’honneur at Paris, France. At Rio de Janeiro, Brazil, 21 November 1935, Getúlio Dornelles Varga, the President of the Republic of Brazil, conferred upon her its Ordem Nacional do Cruzeiro do Sul (Order of the Southern Cross). The following year, Jean Gardner Batten of the Dominion of New Zealand was appointed Commander of the Most Excellent Order of the British Empire (C.B.E.) in the King’s Birthday Honours List, 19 June 1936, for general services to aviation. Twice Batten was awarded the Britannia Trophy of the Royal Aero Club, and three times she won the Harmon Trophy of the International League of Aviators. The Fédération Aéronautique Internationale (FAI) awarded her its Gold Medal.
Jean Gardner Batten C.B.E. with the Britannia Trophy of the Royal Aero Club of Great Britain.
“This young woman, gifted with the finest of qualities, has made a great contribution, both through her daring and her patience, to the progress of aviation in the world. This year, she is worthy of receiving the Gold Medal, very few holders of which are still alive,” said George Valentin, Prince Bibescu, the president and one of the founders of the FAI, when awarding Jean Batten the medal.
A biographical article about Jean Batten can be seen at:
Jean Batten in the cockpit of her Percival Gull. (National Library of New Zealand)
Batten’s Percival D.3 Gull Six, c/n D55, was a single-engine, low-wing monoplane, with fixed landing gear. It was flown by a single pilot and could carry two passengers. On 29 August 1935, the airplane was assigned Great Britain civil registration G-ADPR (Certificate of Registration 6242).
The airplane was 25 feet, 0 inches (7.62 meters) long with a wingspan of 36 feet, 0 inches (10.973 meters) and height of 7 feet, 3 inches (2.210 meters). The D.3 had an empty weight of 1,632 pounds (740.26 kilograms) and gross weight of 2,450 pounds (1,111.30 kilograms).
The Gull’s fuselage was constructed of spruce stringers and struts, covered with a three-ply skin. The wings were designed to be able to fold back alongside the fuselage. The resulting width of 12 feet, 10 inches (3.912 meters) required considerably less storage space.
Jean Batten standing on the wing of her Percival Gull at Gravesend Air Port. (Archives New Zealand)
The Gull Six was powered by an air-cooled, normally-aspirated 9.186 liter (560.573-cubic-inch-displacement) de Havilland Gypsy Six I, an inverted inline six-cylinder engine which produced 184 horsepower at 2,100 r.p.m., and 205 horsepower at 2,350 r.p.m. for takeoff. The engine turned a two-bladed fixed-pitch metal propeller via direct drive. The engine weighed 432 pounds (196 kilograms).
The Gull Six was capable of reaching 178 miles per hour (286.5 kilometers per hour). Its service ceiling was 16,000 feet (4,876.8 meters) and range was 700 miles (1,126.5 kilometers).
On 17 July 1940, Batten’s Percival Gull was impressed into military service and assigned a military identification of AX866. The airplane was returned to the civil register in 1946. It is now on display at the Jean Batten International Terminal, Auckland Airport, New Zealand.
Jean Batten’s Percival D.3 Gull Six, G-ADPR, photographed 19 June 1954. (RuthAS)
Boeing lead test pilot for the 777, Captain Suzanna Darcy-Henneman, in the left seat of a Boeing 777-200LR. (Smithsonian Institution National Air and Space Museum L60826)
10 November 2005: Captain Suzanna Darcy-Henneman set a Fédération Aéronautique Internationale (FAI) world record for distance flown by a commercial aircraft when she and a crew of 7 additional pilots flew a Boeing 777-200LR Worldliner, N6066Z, non-stop from Hong Kong (HKG) to London Heathrow (LHR), a distance of 21,601.33 kilometers (13422.44 miles), in 22 hours, 22 minutes.¹ During the flight, Captain Darcy-Henneman also set two speed records. The 777 averaged 981.57 kilometers per hour (609.92 miles per hour) from Los Angeles to New York,² and 910.54 kilometers per hour (565.78 miles per hour) from New York to London.³
The record-setting Boeing 777-200LR touches down at Heathrow. (Boeing)
Suzanna Darcy joined Boeing’s engineering department in 1974. She learned to fly with the Boeing Employees Flying Association. Darcy graduated from the University of Washington in 1981 with a Bachelor of Science degree in Aeronautics and Aeronautical Engineering. She then became a ground school instructor for Boeing’s Model 757 and 767 airliners.
In 1985, Boeing assigned Darcy-Hanneman as a production test pilot, the first woman to hold that position with the company. She was also the first woman to earn a captain’s rating on the 747-400, and is also rated on the 737, 757, 767 and 777. She performed flight testing on the 737-300 and was the project test pilot for the 777-200LR.
“Capt. Suzanna Darcy-Hennemann, the first female test pilot of Boeing, peers from the cockpit of a 777-200LR at Everett’s Boeing Plant in 2005.” (Mike Siegel / The Seattle Times)
In 2008, Captain Darcy-Hanneman became Chief Pilot, Boeing Commercial Airplane Services. She is a member of the Society of Experimental Test Pilots, and was inducted into the Women in Aviation Pioneer Hall of Fame in 2010. She retired from Boeing in 2015.
Boeing 777-200LR N6066Z. (Unattributed)
The Boeing 777-200LR was designed for very long distance airline routes. It is operated by two pilots, and can carry a maximum 317 passengers. The airplane is 209 feet, 1 inch (63.729 meters) long with a wingspan of 212 feet, 7 inches (64.795 meters) and overall height of 61 feet, 1 inch (18.618 meters). It has an empty weight of 320,000 pounds (145,150 kilograms), and maximum takeoff weight of 766,000 pounds (347,452 kilograms).
The 777-200LR is powered by two General Electric GE-90-110B1 or -115B engines. The engine is dual rotor axial-flow high bypass turbofan. It has a single fan stage; 4-stage high pressure- and 9-stage low pressure compressor section; with a 2-stage high- and 6-stage low-pressure turbine. The high pressure rotor turns 9,332 r.p.m., and the low-pressure rotor turns 2,355 r.p.m. The engine is 286.67 inches (7.281 meters) long and weighs 19,316 pounds (8,761.590 kilograms). The fan has a diameter of 128 inches (3.251 meters). The GE90-115 produces a maximum 115,300 pounds of thrust (156.326 kilonewtons).
The 777-200LR has a maximum speed (MMO) of 0.89 Mach. Its maximum operating altitude is 43,100 feet (13,137 meters).
As of September 2020, Boeing had delivered sixty 777-200LRs.
Sikorsky YH-19 49-2012 first flight, Bloomfield, Connecticut, 10 November 1949. (Sikorsky, a Lockheed Martin Company)
10 November 1949: At Bloomfield, Connecticut, Dimitry D. (“Jimmy”) Viner, a nephew of Igor Sikorsky and chief test pilot for the Sikorsky Aircraft Corporation, made the first flight of the prototype Sikorsky S-55 helicopter, serial number 55-001, which the U.S. Air Force had designated YH-19 and assigned serial number 49-2012.
Five YH-19 service test aircraft were built. Two were sent to Korea for evaluation in combat. As a result, the United States Air Force placed an initial order for 50 H-19A Chickasaw helicopters. (It is customary for U.S. Air Force and U.S. Army helicopters to be named after Native American individuals or tribes, though there are exceptions.) This was quickly followed by orders for 264 H-19B helicopters.
Sikorsky YH-19 49-2014 in Korea, circa 1951. (U.S. Air Force)
The United States Navy ordered 118 S-55s which were designated HO4S-1 and HO4S-3. The U.S. Coast Guard bought 30 HO4S-1G and HO4S-3Gs configured for rescue operations. The U.S. Marine Corps purchased 244 HRS-1, HRS-2 and HRS-3 helicopters. The U.S. Army ordered 353 H-19C and H-19D Chickasaw utility transports. The remaining 216 Sikorsky-built helicopters were S-55, S-55C and S-55D commercial models.
Cutaway illustration of the Sikorsky S-55/H-19/HO4S/HRS. Note the rearward-facing, angled placement of the radial engine. (Sikorsky Historical Archives)
The S-55 was flown by two pilots in a cockpit placed above the passenger/cargo compartment. The most significant design feature was moving the engine from directly under the main rotor mast to a position at the front of the helicopter. Installed at an angle, the engine turned a drive shaft to the main transmission. The engine placement provided space for a large passenger/cargo compartment. The aircraft was constructed primarily of aluminum and magnesium, with all-metal main and tail rotor blades.
The main rotor consisted of three fully-articulated blades built of hollow aluminum spars, with aluminum ribs. Spaces within the blade were filled with an aluminum honeycomb. The blades were covered with aluminum sheet. The hollow spars were filled with nitrogen pressurized to 10 p.s.i. An indicator at the blade root would change color if nitrogen was released, giving pilots and mechanics an indication that the spar had developed a crack or was otherwise compromised. The main rotor turned counter-clockwise as seen from above. (The advancing blade is on the helicopter’s right.) Flapping hinges were offset from the main rotor axis, giving greater control response and effectiveness. The tail rotor was mounted on the helicopter’s left side in a pusher configuration. It turned clockwise as seen from the helicopter’s left.
The helicopter’s fuselage was 42 feet, 2 inches (12.852 meters). The main rotor had a diameter of 53 feet, 0 inches (16.154 meters) and tail rotor diameter was 8 feet, 8 inches (2.642 meters), giving the helicopter an overall length with all blades turning of 62 feet, 2 inches (18.948 meters). It was 13 feet, 4 inches (4.064 meters) high. The landing gear tread was 11 feet (3.353 meters). The S-55 had an empty weight of 4,785 pounds (2,173 kilograms) and maximum takeoff weight of 7,200 pounds (3,271 kilograms). Fuel capacity was 185 gallons (698 liters).
The YH-19 was powered by an air-cooled, supercharged 1,343.804-cubic-inch-displacement (22.021 liter) Pratt & Whitney R-1340-57 (Wasp S1H2) 9-cylinder radial engine mounted at a 35° angle in the fuselage forward of the crew compartment. This was a direct-drive engine which had a Normal Power rating of 550 horsepower at 2,200 r.p.m. to 8,000 feet (2,438 meters), and 600 horsepower at 2,250 r.p.m. for Take Off.
Later production S-55 commercial and H-19/HO4S and HRS military helicopters used an air-cooled, supercharged 1,301.868-cubic-inch (21.334 liter) Wright Aeronautical Division 871C7BA1 Cyclone 7 (R-1300-3) 7-cylinder radial engine with a compression ratio of 6.2:1. The R-1300-3 was also a direct-drive engine, but was rated at 700 horsepower at 2,400 r.p.m., Normal Power, and 800 horsepower at 2,600 r.p.m. for Take-Off. Both engines incorporated a large cooling fan to circulate air around the cylinders. The R-1300-3 was 49.68 inches (1.261 meters) long, 50.45 inches (1.281 meters) in diameter, and weighed 1,080 pounds (490 kilograms).
Sikorsky Aircraft Corps. YH-19 49-2012 (c/n 55-001) shown with engine “clam shell” doors open. This allowed excellent access to the engine for maintenance. (Sikorsky Historical Archives)
The S-55 had a maximum speed of 95 knots (109 miles per hour, 176 kilometers per hour) at Sea Level. The helicopter’s hover ceiling in ground effect (HIGE) was 7,875 feet (2,400 meters) and out of ground effect (HOGE) is 4,430 feet (1,350 meters). The service ceiling was 11,400 feet (3,475 meters) and range was 405 miles (652 kilometers).
Sikorsky Aircraft Corporation built 1,281 S-55-series helicopters. Another 477 were built under license by Westland Aircraft Ltd., Société Nationale des Constructions Aéronautiques du Sud-Est (SNCASE) and Mitsubishi Heavy Industries.
49-1012 is in the collection of the Smithsonian Institution National Air and Space Museum.
The first of five YH-19 service test helicopters, 49-2012, is on display at the Smithsonian Institution National Air and Space Museum. (NASM)Dimitry D. Viner, circa 1931
Дмитро Дмитрович Вінер (Dimitry Dimitry Viner) was born in Kiev, Ukraine, Imperial Russia, 2 October 1908. He was the son of Dimitry Nicholas Weiner and Helen Ivan Sikorsky Weiner, a teacher, and the sister of Igor Ivanovich Sikorsky.
At the age of 15 years, Viner, along with his mother and younger sister, Galina, sailed from Libau, Latvia, aboard the Baltic-American Line passenger steamer S.S. Latvia, arriving at New York City, 23 February 1923.
“Jimmy” Viner quickly went to work for the Sikorsky Aero Engineering Company, founded by his uncle, Igor Sikorsky.
Dimitry Viner became a naturalized United States citizen on 27 March 1931.
Viner married Miss Irene Regina Burnett. The had a son, Nicholas A. Viner.
A Sikorsky YR-5A flown by Jimmy Viner with Captain Jack Beighle, hoists a crewman from Texaco Barge No. 397, aground on Penfield Reef, 29 November 1945. (Sikorsky Historical Archive)
On 29 November 1945, Jimmy Viner and Captain Jackson E. Beighle, U.S. Army, flew a Sikorsky YR-5A to rescue two seamen from an oil barge which was breaking up in a storm off of Fairfield, Connecticut. This was the first time that a hoist had been used in an actual rescue at sea.
Jimmy Viner made the first flight of the Sikorsky S-51 prototype on 16 February 1946, and in 1947, he became the first pilot to log more than 1,000 flight hours in helicopters.
Dimitry Dimitry Viner died at Stratford, Connecticut, 14 June 1998, at the age of 89 years.
Dimitry D. (“Jimmy”) Viner with a Sikorsky S-51, the civil version of the R-5. (Sikorsky Historical Archive)
