11 September 1974: The first prototype Model 206L made its first flight at the Bell Helicopter Company plant at Hurst, Texas.
Based on the Bell 206B-3 JetRanger III, the LongRanger featured a 30-inch (76.2 centimeters) stretch to the passenger cabin, a lengthened tail boom and longer main rotor blades. It retained the JetRanger’s Allison 250-C20B turboshaft engine.
¹ As of 11 September 2024, This Day in Aviation has published 1,667 articles.
© 2019, Bryan R. Swopes
Six months, fifteen days earlier, Lien had made the first flight of the prototype Republic XP-84.)
The XFJ-1 was a turbojet-powered day fighter designed for operation from the United States Navy’s aircraft carriers. It was a single-place, single-engine, low-wing monoplane with retractable tricycle landing gear. The airplane’s wings and tail surfaces were very similar to those of North American’s legendary P-51 Mustang.
Although intended for carriers, the FJ-1 did not have folding wings to reduce its “footprint” when stored on the hangar deck. It did have an interesting feature, though: The nose gear assembly was capable of “kneeling,” putting the airplane in a nose-low, tail-high attitude, allowing Furies to be placed very close together when parked nose-to-tail.
The XFJ-1 Fury was 34 feet, 6–3/16 inches (10.520 meters) long, with a wingspan of 38 feet, 2–9/32 inches (11.640 meters), and overall height of 14 feet, 10½ inches (4.534 meters). With the jettisonable wingtip fuel tanks installed, the wingspan was 40 feet, 11-3/8 inches 12.481( meters). The leading edge of each wing was swept aft 3° 40′. The total wing area was 274.88 square feet (25.54 square meters). The wings had an angle of incidence of 1° with 2° 30′ of negative twist. There was 3° dihedral. The horizontal stabilizer had a span of 17 feet, 7 inches (5.539 meters), with an angle of incidence of –1° and 10° dihedral. The vertical fin had 0° offset from the fuselage centerline.
The XFJ-1 had an empty weight of 9,009 pounds (4,086 kilograms) and gross weight of 12,288 pounds (5,574 kilograms).
The XFJ-1 was powered by a prototype General Electric TG-180 (J35-GE-2) axial-flow turbojet engine. The J35-GE-2 used an 11-stage compressor, 8 combustion chambers, and a single-stage turbine. It was rated at 3,750 pounds of thrust (16.68 kilonewtons) at 7,700 r.p.m. The engine was 14 feet, 0 inches (4.267 meters) long, 40 inches (1.016 meters) in diameter, and weighed 2,455 pounds (1,114 kilograms). Production engines were built by Allison (J35-A-5 and -A-7) and by Chevrolet (J35-C-3).
The production FJ-1 Fury was limited to a maximum speed of 415 knots (478 miles per hour/769 kilometers per hour), and when above 10,000 feet (3,048 meters), to 0.75 Mach. The service ceiling was 32,000 feet (9,754 meters).
The FJ-1 Fury had three self-sealing fuel tanks in the fuselage totaling 465 gallons (1,760 liters). The wingtip tanks had a capacity of 170 gallons (644 liters), each. The total capacity was 805 U.S. gallons (3,047 liters) of JF-1 kerosene.
The XFJ-1 Fury was armed with six air-cooled Browning .50-caliber machine guns, with 250 rounds of ammunition per gun.
North American Aviation built three XFJ-1 prototypes and thirty production FJ-1 Fury fighters. The aircraft underwent a major redesign to become the XP-86 Sabre for the U.S. Air Force, and the FJ-2 Fury for the Navy and Marine Corps.
Wallace Addison Lien was born 13 August 1915, at Alkabo, North Dakota. He was the second of six children of Olaf Paulson Lien, a Norwegian immigrant and well contractor, and Elma Laura Richardson Lien.
Wally Lien graduated from the University of Minnesota Institute of Technology 17 June 1939 with a Bachelor’s Degree in Mechanical Engineering (B.M.E.). He was a president of the Pi Tau Sigma (ΠΤΣ) fraternity, a member of the university’s cooperative book store board, and a member of the American Society of Mechanical Engineers (A.S.M.E.). He later studied at the California Institute of Technology (CalTech) at Pasadena, California, and earned a master’s degree in aeronautical engineering.
Lien worked as a an engineer at a steel sheet mill in Pennsylvania. He enlisted in the the United States Army at Pittsburgh, Pennsylvania, 18 February 1941. He was accepted as an aviation cadet at Will Rogers Field, Oklahoma City, Oklahoma, 11 November 1941. 26 years old, Lien was 6 feet, 2 inches (1.88 meters) tall and weighed 174 pounds (79 kilograms).
During World War II, Lien remained in the United States, where he served as a test pilot at Wright Field, Dayton, Ohio. He conducted flight tests of the Bell YP-59A Airacomet and the Lockheed XP-80 Shooting Star. Having reached the rank of Major, he left the Air Corps, 16 February 1946. He then went to work for the Republic Aviation Corporation as a test pilot, and North American Aviation.
Wallace Addison Lien married Miss Idella Muir at Elizabeth, New Jersey, 26 December 1946. They would have two sons, Robert and Steven.
Wallace Addison Lien died 28 October 1994 at Colorado Springs, Colorado, at the age of 79 years. He was buried at the Shrine of Remembrance Veterans Honor Court, Colorado Springs, Colorado.
¹ Sources very, with some stating 12 September or 27 November 1946.
© 2018, Bryan R. Swopes
10 September 1956: North American Aviation test pilot Joel Robert (“Bob”) Baker made the first flight of the F-107A-NA 55-5118, a pre-production tactical fighter bomber, reaching a speed of Mach 1.03. On landing the drogue parachute did not deploy and due to the high speed on rollout, the nose gear strut collapsed, causing minor damage to the new aircraft.
The F-107A was designed as a Mach 2+ fighter bomber capable of carrying nuclear weapons. The plan to carry a Mark 7 bomb in a centerline recess in the aircraft’s belly resulted in the radical appearance of the airplane, with the engine intake mounted above and behind the cockpit.
Based on the F-100 Super Sabre, it was originally designated F-100B, but this was changed to F-107A prior to the first flight.
The North American Aviation F-107A was a single-seat, single-engine supersonic fighter bomber. It was equipped with a very sophisticated stability augmentation system. The F-107A was 61 feet, 10 inches (18.847 meters) long with a wingspan of 36 feet, 7 inches (11.151 meters) and height of 19 feet, 8 inches (5.994 meters). Its empty weight was 22,696 pounds (10.295 kilograms) and had a maximum takeoff weight of 41,537 pounds (18,841 kilograms).
The airplane was powered by a Pratt & Whitney YJ75-P-11 afterburning turbojet which produced a maximum 24,500 pounds of thrust (108.98 kilonewtons).
This gave the F-107A a maximum speed of 890 miles per hour (1,432 kilometers per hour) at Sea Level, and 1,295 miles per hour (2,084 kilometers per hour) at 36,000 feet (10,973 meters). It could climb at an initial rate of 39,900 feet per minute (202.7 meters per second) and had a service ceiling of 53,200 feet (16,215 meters).
The Mark 7 was a variable-yield fission bomb that could be pre-set to detonate with ranges between 8 and 61 kilotons. It weighed approximately 1,700 pounds (771 kilograms).
The second F-107A, 55-5119, was the weapons test aircraft and was armed with four 20mm M39 cannon with 200 rounds per gun.
The F-107A was in competition with Republic’s F-105 Thunderchief, which was selected by the Air Force for production. Only three F-107A test aircraft were built.
After Air Force testing, two F-107s, 55-5118 and 55-5120, were turned over to the NACA High-Speed Flight Station for use as research aircraft. John Barron (“Jack”) McKay was assigned as the project pilot. 55-5118 made only 4 flights for NACA before being grounded. 55-5120 made 42 flights.
Today, 55-5118 is at the Pima Air and Space Museum, Tucson, Arizona. Its sister ship, 55-5119, is at the National Museum of the United States Air Force, Wright-Patterson AFB, Ohio. The third airplane, 55-5120, was damaged on takeoff with test pilot Scott Crossfield in the cockpit, 1 September 1959. It was not repaired.
© 2015, Bryan R. Swopes
Previously employed by Northrop Corporation, in 1990, Paul Metz had also made the first flight of the Raptor’s rival, the YF-23A Advanced Tactical Fighter prototype.
Alfred Paul Metz was born 21 June 1946 at Springfield, Ohio. In 1968, he graduated form Ohio State University, Columbus, Ohio, with a bachelor’s degree in aeronautical engineering.
Metz entered the U.S. Air Force in 1968. He flew 68 combat missions during the Vietnam War as a pilot of the Republic F-105G Thunderchief (“Wild Weasel”), assigned to the 17th Wild Weasel Squadron, 388th Tactical Fighter Wing, based at Korat Royal Thai Air Force Base, Thailand. He was twice awarded the Distinguished Flying Cross.
Metz graduated from the Air Force Test Pilot School at Edwards Air Force Base, California, in 1976, and remained at Edwards for the next two years. He was then assigned as an instructor at the U.S. Navy Test Pilot School at NATC Patuxent River, Maryland, in 1978.
Metz left the Air Force in 1980 and joined Northrop Aircraft as an engineering test pilot. He became Northrop’s chief test pilot in 1985. After flying as an engineering test pilot for the B-2 stealth bomber, Paul Metz joined Lockheed Martin’s F-22 program in 1992.
Paul Metz continued testing the F-22A for four years before joining the F-35 Joint Strike Fighter program. He was next appointed Vice President for Flight Test. Metz retired in 2006.
The Lockheed Martin F-22A Raptor is a single-seat, twin-engine fighter designed with stealth technology. It is 62 feet, 1 inch (18.923 meters) long with a wingspan of 44 feet, 6 inches (13.564 meters) and height of 16 feet, 8 inches (5.080 meters). The fighter has an empty weight of 43,340 pounds (19,659 kilograms) and a maximum takeoff weight of 83,500 pounds (37,875 kilograms).
The F-22A can cruise at Mach 1.82 and has a maximum speed of Mach 2.25. Its service ceiling is greater than 65,000 feet (19,812 meters) and the combat radius is 470 miles (756 kilometers).
The fighter is armed with a 20 mm M61A2 Vulcan 6-barrel cannon with 480 rounds of ammunition, and can carry AIM-9 Sidewinder and AIM-120 AMRAAM air-to-air missiles. The F-22 can also be configured for ground attack.
The F-22A entered service with the U.S. Air Force in 2003, with “initial operational capability” achieved in 2005. Including flight test aircraft, 195 F-22s were produced before the program prematurely ended in 2012.
In 2000, 91-4001 was removed from flight status and used to test battle damage survivability.
© 2018, Bryan R. Swopes
The Model 209 was a private venture, built in just seven months and rolled out at Fort Worth, Texas, 2 September 1965. The prototype aircraft combined the drive system, rotors and tail boom of the production UH-1C gunship with a streamlined fuselage which placed the two pilots in tandem.
The prototype was equipped with retractable landing gear which gave the 209 increased speed, but the expense and complexity were enough that this feature was not included on production aircraft.
This helicopter would be developed into the famous AH-1G Huey Cobra.
The second prototype, AH-1G 66-15246, was used by the Army for flight testing at Edwards Air Force Base, California, from 3 April to 21 April 1967.
66-15246 had an overall length of 52 feet, 11.65 inches (16.146 meters) with rotors turning. The fuselage was 44 feet, 5.20 inches (13.433 meters) long, and it was 3 feet, 0 inches (0.914 meters) wide. The HueyCobra had a short “stub wing” with a span of 10 feet, 11.60 inches (3.343 meters). Its angle of incidence was 14°. The wing’s area was 27.8 square feet (2.6 square meters). 66-15426 had an empty weight of 5,516 pounds (2,502 kilograms) and maximum gross weight of 9,500 pounds (4,309 kilograms).
The two-bladed Model 540 “door-hinge” main rotor was 44 feet, 0 inches (13.411 meters) in diameter. The blades had a chord of 2 feet, 3 inches (0.686 meters) and 10° negative twist. The main rotor turned counter-clockwise when viewed from above. (The advancing blade is on the helicopter’s right.) Normal rotor r.p.m. (power on) was 314–324 r.p.m., and power off, 304–339 r.p.m. The minimum transient rotor speed, power off, was 250 r.p.m.
The two blade tail rotor assembly had a diameter of 8 feet, 6 inches (2.591 meters) with a chord of 8.41 inches (0.214 meters). There was no twist. It was mounted on the left side of the pylon in a pusher configuration and turned counter-clockwise as seen from the helicopter’s left. (The advancing blade is above the axis of rotation.) The tail rotor pylon was cambered to allow aerodynamic forces in forward flight to “unload” the tail rotor.
The speed of the Cobra was effected by the armament configuration, whether “clean,” light or heavy scout, or “heavy hog.” At 5,000 feet (1,524 meters), the cruise speed in the clean configuration was 138.0 knots (158.8 miles per hour, 255.6 kilometers per hour); light scout, 134.0 knots (154.2 miles per hour, 248.2 kilometers per hour); and heavy hog, 127.0 knots (146.2 miles per hour, 235.2 kilometers per hour). The maximum airspeed in level flight was 149.0 knots (171.5 miles per hour, 276.0 kilometers per hour); 144.0 knots (165.7 miles per hour, 266.7 kilometers per hour); and 136.5 knots (157.1 miles per hour, 252.8 kilometers per hour), respectively.
The limiting airspeed (VNE) was 190 knots (KCAS) (219 miles per hour, 352 kilometers per hour) below 3,000 feet (914 meters) density altitude.
In autorotation, the airspeed for the minimum rate of descent was 74.0 knots (85.2 miles per hour, 137.1 kilometers per hour) with the main rotor turning 294 r.p.m., resulting in a rate of descent of 1,750 feet per minute (8.89 meters per second).
The basic armament for the AH-1G Cobra was an Emerson M28 turret which could be equipped with one or two General Electric M134 Miniguns, or a combination of a Minigun with a Philco Ford M129 automatic grenade launcher, or two grenade launchers. Each Minigun was supplied with 4,000 rounds of 7.62 NATO ammunition, while a grenade launcher had 300 rounds of 40 × 53 millimeter high-velocity explosive ammunition.
Four hardpoints on the stub wing could be loaded with M18 7.62 NATO Minigun pods; XM35 pods, containing a short-barreled General Electric XM195 20 millimeter Gatling gun (a variant of the M61 Vulcan); rocket pods with seven or nineteen 2.75-inch unguided rockets.
The prototype Cobra, Bell Model 209 N209J, is in the collection of the U.S. Army Aviation Museum, Fort Rucker, Alabama, as is the second prototype, 66-15246.
© 2017, Bryan R. Swopes