The first prototype Mikoyan MiG 29A, 9-01, (“01 Blue”) on display at the Central Air Force Museum, Monino. (Detail from image by AVIA BavARia/Wikipedia)Alexander Vasilievich Fedotov
6 October 1977: The first of eleven prototypes of the Mikoyan MiG 29A fighter, 9-01, made its first flight at Ramenskoye Airfield with Chief Test Pilot Alexander Vasilievich Fedotov, Hero of the Soviet Union, in the cockpit.
Fedotov had been a test pilot at A.I. Mikoyan EDB since 1958 and set eighteen speed and altitude world records flying high performance aircraft. He was killed while testing the MiG 31 in 1984.
The MiG 29A is a fourth generation, single-seat, twin-engine, Mach 2+ air superiority fighter built by the Mikoyan Design Bureau. It entered service with the Soviet Union in 1983 and has been widely exported to many other nations. The MiG 29A is 13.37 meters (57 feet) long and has a wing span of 11.4 meters (37 feet, 3 inches). Its empty weight is 11,000 kilograms (24,250 pounds) and the maximum takeoff weight (MTOW) is 20,000 kilograms (44,100 pounds). The fighter is powered by two Klimov RD-33 turbofan engines which produce 11,240 pounds of thrust, or 18,277 pounds of thrust with afterburner. It has a maximum speed of Mach 2.25 (1,490 miles per hour/2,400 kilometers per hour) and a service ceiling of 59,100 feet (18,013 meters). Maximum range with internal fuel is 1,430 kilometers (888 miles).
Armament consists of one Gryazev-Shipunov GSh-301 30mm autocannon with 150 rounds of ammunition and a combination of air-to-air missiles, rockets or bombs carried on underwing pylons or fuselage hard points.
Alexander Vasilievich Fedotov born 23 June 1932 at Stalingrad, Russia (renamed Volgograd in 1961). He graduated from the Air Force Special School at Stalingrad, and in 1950, entered the Soviet Army. Fedotov attended the Armavir Military Aviation School of Pilots at Amravir, Krasnodar Krai, Russia, graduating in 1952, and then became a flight instructor. In 1958 he attended the Ministry of Indutrial Aviation Test Pilot School at Zhukovsky. He was a test pilot for the Mikoyan Experimental Design Bureau from 1958 to 1984. In 1983, Alexander Fedotov was promoted to the rank of Major General in the Soviet Air Force.
On 22 July 1966, Fedotov was honored as a Hero of the Soviet Union. He was named an Honored Test Pilot of the Soviet Union, 21 February 1969. He was qualified as a Military Pilot 1st Class. Fedotov was twice awarded the order of Lenin, and also held the Order of the Red Banner and the Order of the Red Banner of Labor.
During his career as a test pilot, Major General Fedotov had been forced to eject from an airplane three times. He had also set 15 Fédération Aéronautique Internationale world records for speed, altitude and time to altitude. One of these, FAI Record File Number 2825, in which he flew a Mikoyan E-266M to 37,650 meters (123,534 feet), 31 August 1977, remains the current record. The FAI has also honored him three times (1961, 1973 and 1977) with The De la Vaulx Medal, and in 1976 awarded him the FAI’s Gold Air Medal.
Major General Alexander Vasilyevich Fedotov and his navigator, Valerie Sergeyvich Zaytevym, were killed when the second MiG 31 prototype, number 83/2, crashed during a test flight. Neither airman was able to eject.
Major General Alexander Vasilyevich Federov, Hero of the Soviet Union
Lockheed XF-104 Starfighter 083-1002, serial number 53-7787, the second prototype, in flight near Edwards AFB. (U.S. Air Force)
5 October 1954: Chief Engineering Test Pilot Tony LeVier made the first flight in the second prototype Lockheed XF-104 Starfighter, 53-7787, at Edwards Air Force Base in the high desert of southern California. This was the armament test aircraft and was equipped with a General Electric T171 Vulcan 20mm Gatling gun. This six-barreled gun was capable of firing at a rate of 6,000 rounds per minute.
The XF-104 was 49 feet, 2 inches (14.986 meters) long with a wingspan of 21 feet, 11 inches (6.680 meters) and overall height of 13 feet, 6 inches (4.115 meters). The prototypes had an empty weight of 11,500 pounds (5,216 kilograms) and maximum takeoff weight of 15,700 pounds (7,121 kilograms).
While the first prototype, 53-7776, was equipped with a Buick J65-B-3 turbojet engine, the second used a Wright Aeronautical Division J65-W-6 with afterburner. Both were improved derivatives of the Armstrong Siddely Sa.6 Sapphire, built under license. The J65 was a single-shaft axial-flow turbojet with a 13-stage compressor and 2-stage turbine. The J65-B-3 was rated at 7,330 pounds of thrust, and the J65-W-6, rated at 7,800 pounds (34.70 kilonewtons), and 10,500 pounds (46.71 kilonewtons) with afterburner.
The XF-104 had a maximum speed of 1,324 miles per hour (2,131 kilometers per hour), a range of 800 miles (1,287 kilometers) and a service ceiling of 50,500 feet (15,392 meters).
53-7787 was lost 19 April 1955 when it suffered explosive decompression at 47,000 feet (14,326 meters) during a test of the T171 Vulcan gun system. The lower escape hatch had come loose due to an inadequate latching mechanism. Lockheed test pilot Herman R. (“Fish”) Salmon was unable to find a suitable landing area and ejected at 250 knots (288 miles per hour/463 kilometers per hour) and 15,000 feet (4,572 meters). The XF-104 crashed 72 miles (117 kilometers) east-northeast of Edwards Air Force Base. Salmon was found two hours later, uninjured, about 2 miles (3.2 kilometers) from the crash site.
Tony LeVier with the XF-104 armament test prototype, 53-7787, at Edwards AFB, 1954. LeVier is wearing a David Clark Co. T-1 capstan-type partial-pressure suit with K-1 helmet. (U.S. Air Force)
The YF-104A pre-production aircraft and subsequent F-104A production aircraft had many improvements over the two XF-104 prototypes. The fuselage was lengthened 5 feet, 6 inches (1.68 meters). The J65 engine was replaced with a more powerful General Electric J79-GE-3 turbojet. There were fixed inlet cones added to control airflow into the engines. A ventral fin was added to improve stability.
Lockheed F-104A-15-LO Starfighters 56-0769 and 56-0781. (Lockheed Martin)
Lieutenant Commander James B. Verdin, United States Navy. (J. R. Eyerman)
3 October 1953: Lieutenant Commander James B. Verdin, United States Navy, a test pilot assigned to NAS Patuxent River, Maryland, flew the second prototype of the Douglas Aircraft Company’s XF4D-1 Skyray, Bu. No. 124587, over a three kilometer course at the Salton Sea, California. Flying at approximately 150 feet (46 meters), Commander Verdin made four passes, with two in each direction. He set a new Fédération Aéronautique Internationale (FAI) World Record for Speed over a 3-kilometer course, averaging 1,211.75 kilometers per hour (752.95 miles per hour).¹
The surface of the Salton Sea, is 236 feet (72 meters) below Sea Level. The air temperature at the time of Verdin’s flight was 98.5 °F. (36.9 °C.). His four runs were measured at 1,200.691, 1,225.377, 1,200.656, and 1,222.294 kilometers per hour (746.075, 761.414, 746.053 and 759.498 miles per hour). The total elapsed time for the flight, from take off to landing at NAS El Centro, was 20 minutes, 25 seconds. The XF4D-1 burned 575 gallons (2,177 liters) of fuel.
Verdin had broken the record set 25 September 1953 by Michael J. Lithgow, chief test pilot for Vickers Supermarine, flying a Supermarine Swift F. Mk.4, WK198, at Castel Idris, Libya.²
In an interview with famed writer Bob Considine for his newspaper column, Verdin said,
“Douglas had its high priced help there at the course, and they iced my fuel for the Skyray while I took a look at the course from a Grumman Cougar,” he remembered. “They ice the fuel because that shrinks it and you can pack more in.
“We towed her out to the starting line to save the stuff. Didn’t even use blocks on the wheels after the engine was started. Just started rolling. I was in the air a little over a minute after the engine started, and headed for the measured course, 40 miles away.
“It was marked for me by smudge pots and burning tires, and orange-red markers to tell me when to turn off my afterburner, which eats fuel like crazy. About five miles short of the line I was doing 620 and turned on the afterburner. It gave me another hundred miles an hour right away, and I held her steady and low over the course. It doesn’t take long. . . about nine seconds for the just under two miles.”
—Bob Considine, On the Line—By Considine, International News Service, published in The Daily Review, Hayward, California, Vol. 62, No. 21, 20 October 1953, Page 14 at Columns 1–3
Douglas XF4D-1 Skyray Bu.No. 124587. (U.S. Navy)
The Douglas XF4D-1 Skyray was a single-place, single-engine delta-winged fighter powered by a turbojet engine. It had retractable tricycle landing gear and was to operate off of the U.S. Navy’s aircraft carriers as a high altitude interceptor. The Skyray was designed by the legendary Ed Heinemann, for which he was awarded the Collier Trophy in 1954. Two prototypes were built (Bu.Nos. 124586, 124587). It was a delta-winged aircraft, though the wingtips were significantly rounded.
The Douglas F4D-1 Skyray was 45 feet, 4¾ inches (13.837 meters) long, with a wingspan of 33 feet, 6 inches (10.211 meters) and overall height of 13 feet, 8 inches (4.166 meters). The empty weight was 16,024 pounds (7,268 kilograms) and maximum takeoff weight was 27,116 pounds (12,300 kilograms).
Originally built with Allison J35-A-17 turbojet engines, both prototypes later had a Westinghouse J40-WE-8 afterburning turbojet installed. The Skyray was equipped with the Westinghouse engine when it set the speed record. Production Skyrays used a Pratt & Whitney J57-P-8 afterburning turbojet.
The Westinghouse J40-W-8 was a single-shaft, axial-flow, afterburning turbojet engine with an 11-stage compressor and two-stage turbine. It produced 10,500 pounds of thrust (46.706 kilonewtons) at 7,600 r.p.m. The engine was 25 feet, 0 inches (7.620 meters) long, 3 feet, 4 inches (1.016 meters) in diameter and weighed 3,500 pounds (1,588 kilograms).
Douglas XF4D-1 Skyray, Bu.No. 124587. (U.S. Navy)
The F4D-1 was the first U.S. Navy fighter able to reach supersonic speeds in level flight. The production aircraft had a maximum speed of 722 miles per hour (1,162 kilometers per hour), and service ceiling of 55,000 feet (16.764 meters). Its rate of climb was 18,300 feet per minute (92.97 meters per second) and the maximum range was 1,200 miles (1,931 kilometers).
The Skyray was armed with four 20 mm Colt Mk 12 autocannon, with 65 rounds of ammunition per gun. It could also carry 2.75-inch FFAR rockets, four AIM-9 Sidewinder air-to-air missiles, or two 2,000 pound (1,588 kilogram) bombs.
The Douglas Aircraft Company built 420 F4D-1 Skyrays. They were in service with the U.S. Navy and U.S. Marine Corps from 1956 until 1964.
Douglas XF4D-1 Bu.No. 124587 as a flight test aircraft for General Electric, at Edwards Air Force Base, circa 1955. (U.S. Navy)
The record-setting XF4D-1 was transferred to General Electric in July 1955 and used to test GE’s J79 afterburning turbojet engine and the commercial CJ805.
XF4D-1 Bu. No. 124587 was returned to the Navy in May 1960. It is on display at the U.S. Navy Museum of Armament and Technology, NAWS China Lake, California.
Lieutenant Commander James B. Verdin, USN (1918–1955)
James Bernard Verdin was born at Miles City, Montana, 23 February 1918, the son of James Harris Verdin, a farmer, and Nellie Cambron Verdin.
He attended Abraham Lincoln High School in Council Bluffs, Iowa, graduating in 1937, then studied at Iowa State College, Ames, Iowa. He was a member of the Reserve Officers Training Corps (ROTC), and the Theta Chi (ΘΧ) fraternity.
In 1940, Verdin was employed by the Standard Varnish Works, in Chicago, Illinois. He registered for Selective Service (conscription) 16 October 1940. He was described as being 5 feet, 9 inches (1.75 meters) tall, and weighing 160 pounds (72.6 kilograms). He had black hair, brown eyes, and a dark complexion.
He entered the United States Navy as a Seaman, 2nd Class, 11 July 1941. His enlistment was terminated 7 January 1942 and he was accepted as an Aviation Cadet. He was assigned to NAS Corpus Christi, Texas, for flight training. Verdin was commissioned as an Ensign, 18 June 1942.
Miss Kathryn Jane Marschner
Ensign Verdin married Miss Kathryn Jane Marschner at St. Michael’s Church, Pensacola, Florida, 4 August 1942. The ceremony was officiated by Rev. W. J Cusik. They lived in Coronado, California, near NAS North Island. They had one child. They divorced in 1948. Later, he married his second wife, Miss Muriel Carolyn Larson. They had three children and lived in Brentwood, California.
He was promoted to Lieutenant (Junior Grade), 1 May 1943, and then promoted to Lieutenant, 1 July 1944.
During World War II, Lieutenant James Bernard Verdin, U.S.N., was a fighter pilot flying the Grumman F6F-5 Hellcat, assigned to VF-20 aboard USS Enterprise (CV-6). He was awarded the Navy Cross for extraordinary heroism at the Battle of Leyte Gulf, 25 October 1944:
The President of the United States of America takes pleasure in presenting the Navy Cross to Lieutenant James Bernard Verdin, United States Naval Reserve, for extraordinary heroism in operations against the enemy while service as a Pilot of a carrier-based Navy Fighter Plane in Fighting Squadron TWENTY (VF-20), attached to the U.S.S. ENTERPRISE (CV-6), on a strike against the Japanese Fleet during the Battle for Leyte Gulf on 25 October 1944, in the Philippine Islands. With complete disregard for his own personal safety and in the face of intense anti-aircraft fire, Lieutenant Verdin attacked and scored a direct bomb hit on an enemy battleship. His outstanding courage and determined skill were at all times inspiring and in keeping with the highest traditions of the United States Naval Service.
General Orders: Commander 1st Carrier Task Force Pacific: Serial 046. 31 January 1945
Grumman F6F Hellcats on the flight deck of USS Enterprise (CV-6), 30 October 1944. The aircraft carrier USS Belleau Wood (CVL-24) is burning on the horizon. (U.S. Navy)
Lieutenant Verdin flew more than 100 combat missions during World War II and the Korean War. In addition to the Navy Cross, Lieutenant Commander Verdin was awarded the Distinguished Flying Cross with one gold star, and the Air Medal with five gold stars.
Verdin resigned from the U.S. Navy 27 May 1954 and joined the Douglas Aircraft Company as a test pilot, June 1954.
While testing a Douglas YA4D-1 Skyhawk, Bu. No. 137815, 13 January 1955, Lieutenant Commander Verdin encountered violent vibrations during a high speed run near Victorville, California. He was forced to eject, but his parachute failed to open and he was killed. His body was not found until the following day, located 2½ miles from the crash site. Verdin was 37 years old.
During his career in the United States Navy, Lieutenant Commander Verdin had been awarded the Navy Cross, the Distinguished Flying Cross with one gold star (two awards), and the Air Medal with five gold stars (six awards). His remains were buried at Fort Rosecrans National Cemetery, San Diego, California.
Douglas Aircraft Company YA4D-1 Skyhawk, Bu. No. 137820, sister ship of Verdin’s Skyhawk. (Navy Pilot Overseas)
Boeing XB-52 Stratofortress 49-230 takes off for the first time, at Boeing Field, Seattle, Washington, 2 October 1952. (LIFE Magazine via Jet Pilot Overseas)
2 October 1952: The Boeing XB-52 Stratofortress prototype, 49-230, made its first flight at Boeing Field, Seattle, Washington, with test pilot Alvin M. “Tex” Johnston in command. Lieutenant Colonel Guy M. Townsend, U.S. Air Force, acted as co-pilot.
The first of two prototype long-range, high-altitude, heavy bombers, the XB-52 had been damaged during ground testing and extensive repairs were required, which delayed its initial flight. The second prototype, YB-52 49-231, made the type’s first flight nearly six months earlier, on 15 April 1952.
Alvin M. “Tex” Johnston, test pilot, after the first flight of the Boeing XB-52 Stratofortress prototype, 2 October 1952. (LIFE Magazine via Jet Pilot Overseas)
The prototype Stratofortress the largest jet aircraft built up to that time. It was 152.7 feet (46.543 meters) long with a wingspan of 185.0 feet, (56.388 meters) and 48.25 feet (14.707 meters) to the top of the vertical fin. The leading edges of the wings were swept back 36° 54′. The XB-52 had an empty weight of 155,200 pounds (70,398 kilograms) and its maximum takeoff weight was 390,000 pounds (176,901 kilograms). Fuel capacity was 27,417 gallons (103,785 liters).
Lieutenant Colonel Guy M. Townsend, U.S. Air Force. (Jet Pilot Overseas)
The XB-52 was powered by eight Pratt & Whitney YJ57-P-3 turbojet engines, with a normal power rating of 8,700 pounds static thrust at Sea Level (38.700 kilonewtons). The prototype bomber had a cruising speed of 519 miles per hour (835 kilometers per hour), and a maximum speed of 611 miles per hour (983 kilometers per hour) at 20,000 feet (6,048 meters). The planned bombing altitude was 46,500 feet (14,173 meters) and it had a service ceiling of 52,300 feet (15,941 meters). The XB-52 had an initial rate of climb of 4,550 feet per minute (23.11 meters per second) at Sea Level. Its maximum unrefueled range was 7,015 miles (11,290 kilometers).
Pilot’s cockpit, Boeing XB-52. (Boeing)Boeing XB-52 Stratofortress 49-230. (U.S. Air Force)Boeing XB-52 Stratofortress 49-230 with a North American F-86 Sabre chase plane. (U.S. Air Force)Boeing XB-52 Stratofortress 49-230. (U.S. Air Force)
In its original configuration, the XB-52 was armed with two .50-caliber machine guns in a turret in the tail, with 600 rounds of ammunition per gun, though these guns were not installed on 49-230. The XB-52 was designed to carry a single 25,200 pound (11,431 kilogram) T-28E2 Samson bomb, or other conventional or nuclear weapons.
XB-52 49-230 was used in flight testing for its entire service life. The airplane was scrapped in the mid-1960s.
744 B-52 bombers were built by Boeing at Seattle, Washington and Wichita, Kansas, with the final one, B-52H-175-BW 61-0040, rolled out 22 June 1962.
75 B-52H Stratofortresses are still in service with the United States Air Force.
Boeing XB-52, with Tex Johnston and Guy Townsend in the tandem cockpit. (Boeing)Boeing XB-52 Stratofortress 49-230 with two Pratt & Whitney J75 turbojets in single-engine nacelles on the outer pylons, circa 1959. (U.S. Air Force)
North American Aviation test pilot George S. Welch, flying the first of three XP-86 prototypes, serial number 45-59597. (North American Aviation, Inc.)
1 October 1947: After three years development in which 801,386 engineering hours and 340,594 drafting hours had been expended, the first prototype North American Aviation XP-86 (company designation NA-140), serial number 45-59597, was ready for its first flight at Muroc Dry Lake in the high desert, north of Los Angeles, California.
Completed at North American’s Inglewood plant on 8 August 1947, it was trucked to Muroc in mid-September. It was reassembled, everything was checked out, and after a few taxi tests, company test pilot George S. Welch took off for a initial familiarization flight. Chief Test Pilot Bob Chilton flew chase in an XP-82 Twin Mustang with a company photographer on board. The duration of the first flight was 1 hour, 18 minutes.
Recently completed, the first prototype XP-86, 45-59597, waits inside the North American Aviation plant at Inglewood, California, 14 August 1947. (North American Aviation, Inc.)
During this first flight, George Welch climbed to 35,000 feet (10,668 meters):
“In a little more than ten minutes he had reached 35,000 feet. Leveling out, the test pilot smiled as he watched the indicated airspeed accelerate to 320 knots. He estimated that should be 0.90 Mach number. . . Rolling into a 40 degree dive, he turned west. . . The airspeed indicator seemed to be stuck at about 350 knots. The Sabre was behaving just fine. Then at 29,000 feet, there was a little wing roll. Correcting the roll, George pushed into a steeper dive. The airspeed indicator suddenly jumped to 410 knots and continued to rise. At 25,000 feet, he pulled the Sabre into level flight and reduced power. The wing rocked again and the airspeed jumped back to 390.”
—Aces Wild: The Race for Mach 1, by Al Blackburn, Scholarly Resources Inc., Wilmington, Delaware, 1998, at Chapter 5, Pages 144–145.
George Welch was the first to report instrument readings that would be referred to as “Mach jump.” It has been argued that George Welch flew the XP-86 beyond Mach 1 during this flight, breaking the “sound barrier” two weeks before Chuck Yeager did with the Bell X-1 rocketplane. During flight testing, it was firmly established that the XP-86 could reach Mach 1.02–1.04 in a dive, so it is certainly possible that he did so on the Sabre’s first flight.
North American Aviation Model NA-140, the first XP-86 prototype, 45-59597, at Muroc AAF, 1947. (U.S. Air Force)
The XP-86 was unlike any airplane before it. It was the first airplane with a swept wing. After analyzing test data from the Messerschmitt Me 262, North American’s engineers designed a wing with a 35° degree sweepback to its leading edge. The wing tapered toward the tips, and its thickness also decreased from the root to the tip. In order to create a very strong but very thin wing, it was built with a two-layered aluminum skin, instead of ribs and spars, with each layer separated by “hat” sections. The wing sweep allowed high speed shock waves to form without stalling the entire wing.
Cutaway illustration of the XP-86. The speed brake configuation was not used for production aircraft. (North American Aviation, Inc.)
The wing also incorporated leading edge “slats” which were airfoil sections that automatically extended below 290 knots, smoothing the air flow over the wing’s upper surface and creating more lift at slow speeds. Above that speed, aerodynamic forces closed the slats, decreasing drag and allowing for higher speeds. Effectively, the wing could change its shape in flight.
This photograph of the XP-86 shows the 35° wing sweep. Test pilot George S. Welch, wearing his distinctive orange helmet, in the cockpit of the prototype XP-86. (North American Aviation, Inc.)
The XP-86 prototypes were 37 feet, 6½ inches (11.443 meters) long with a wingspan of 37 feet, 1–7/16 inches (11.314 meters) and overall height of 14 feet, 9 inches (4.496 meters). The empty weight was 9,730 pounds (4,413.5 kilograms), gross weight, 13,395 pounds (6,075.9 kilograms) and maximum takeoff weight was 16,438 pounds (7,456.2 kilograms).
North American Aviation XP-86 45-59597. (Ray Wagner Collection, San Diego Air & Space Museum Archives, Catalog #: 16_002950)
The XP-86 was initially powered by a General Electric-designed, Chevrolet-built J35-C-3 turbojet which produced 4,000 pounds of thrust. This was soon changed to an Allison J35-A-5. Performance testing was conducted with the Allison engine installed. The J35 was a single-spool, axial-flow turbojet engine with an 11-stage compressor and single-stage turbine. The J35-A-5 was rated at 4,000 pounds of thrust (17.79 kilonewtons) at 7,700 r.p.m. (static thrust, Sea Level). The engine was 14 feet, 0.0 inches (4.267 meters) long, 3 feet, 4.0 inches (1.016 meters) in diameter and weighed 2,400 pounds (1,089 kilograms).
The three North American Aviation XP-86 prototypes. Front to back, 45-59598, 45-59597 and 45-59599. (National Archives and Records Administration)
The maximum speed of the XP-86 at Sea Level was 0.787 Mach (599 miles per hour, 964 kilometers per hour), 0.854 Mach (618 miles per hour, 995 kilometers per hour) at 14,000 feet (4,267 meters) and 575 miles per hour (925 kilometers per hour) at 35,000 feet (10,668 meters)—0.875 Mach.
The prototype fighter was able to take off at 125 miles per hour (201 kilometers per hour) in just 3,020 feet (920.5 meters) of runway. It could climb to 30,000 feet (9,144 meters) in 12.1 minutes and had a service ceiling of 41,300 feet (12,588 meters).
The end of XP-86 45-59597 at Frenchman Flats, 1953.
XP-86 45-59597 was expended as a target during nuclear weapons tests. On 25 May 1953, it was 1,850 feet from ground zero of Upshot Knothole Grable. The only part still intact was the engine, which was thrown 500 feet.
Upshot Knothole Grable (National Nuclear Security Administration CIC 0315864)George S. Welch, North American Aviation test pilot, wearing his orange flight helmet. An F-86 Sabre is in the background. (San Diego Air and Space Museum Photo Archives)
George Welch was born George Lewis Schwartz, in Wilmington, Delaware, 10 May 1918. His parents changed his surname to Welch, his mother’s maiden name, so that he would not be effected by the anti-German prejudice that was widespread in America following World War I. He studied mechanical engineering at Purdue, and enlisted in the Army Air Corps in 1939.
George S. Welch is best remembered as one of the heroes of Pearl Harbor. He was one of only two fighter pilots to get airborne during the Japanese surprise attack on Hawaii, 7 December 1941. Flying a Curtiss P-40B Warhawk, he shot down three Aichi D3A “Val” dive bombers and one Mitsubishi A6M2 Zero fighter. For this action, Lieutenant General H.H. “Hap” Arnold recommended the Medal of Honor, but because Lieutenant Welch had taken off without orders, an officer in his chain of command refused to endorse the nomination. He received the Distinguished Service Cross.
During World War II, George Welch flew the Bell P-39 Airacobra and Lockheed P-38 Lightning on 348 combat missions. He had 16 confirmed aerial victories over Japanese airplanes and rose to the rank of Major.
Suffering from malaria, George Welch was out of combat, and when North American Aviation approached him to test the new P-51H Mustang, General Arnold authorized his resignation. Welch test flew the P-51, FJ-1 Fury, F-86 Sabre and F-100 Super Sabre. He was killed 12 October 1954 when his F-100A Super Sabre came apart in a 7 G pull up from a Mach 1.5 dive.
An early production aircraft, North American Aviation P-86A-1-NA Sabre 47-630 (s/n 151-38457). (North American Aviation, Inc./Chicago Tribune)
After testing, the North American Aviation XP-86 was approved for production as the F-86A. It became operational in 1949. The first squadron to fly the F-86 held a naming contest and from 78 suggestions, the name “Sabre” was chosen. The F-86 Sabre was in production until 1955 at North American’s Inglewood, California, and Columbus, Ohio, plants. It was also built under license by Canadair, Ltd., Sain-Laurent, Quebec, Canada; the Commonwealth Aircraft Corporation, Port Melbourne, Victoria, Australia; and Mitsubishi Heavy Industries at Nagoya, Aichi Prefecture, Japan. A total of 9,860 Sabres were built. They served with the United States Air Force until 1970.
XP-86 45-59597 was expended in nuclear weapons tests, Operation Snapper Easy and Snapper Fox, at the Nevada Test Site, Frenchman’s Flat, Nevada, in May 1952. The second and third prototypes, 45-59598 and 45-59599, met similar fates.
