Tony LeVier in the cockpit of Lockheed TP-80C-1-LO 48-356, the prototype T-33A Shooting Star two-place trainer. (Jet Pilot Overseas)
22 March 1948: Just over one year since being injured when the prototype P-80A was cut in half by a disintegrating turbojet engine, Lockheed test pilot Anthony W. (“Tony”) LeVier made the first flight of the prototype TP-80C-1-LO, serial number 48-356, a two-place jet trainer. The airplane was redesignated TF-80C Shooting Star on 11 June 1948 and to T-33A, 5 May 1949.
Adapted from a single-seat P-80C Shooting Star jet fighter, Lockheed engineers added 38.6 inches (0.980 meter) to the fuselage forward of the wing for a second cockpit, instrumentation and flight controls, and another 12 inches (0.305 meter) aft. A more powerful engine, an Allison J33-A-23 with 4,600 pounds of thrust, helped offset the increased weight of the modified airplane. Internal fuel capacity decreased 72 gallons (273 liters) to 353 (1,336 liters).
The Lockheed T-33A Shooting Star is 37.72 feet (11.50 meters) long, with a wingspan of 37.54 feet (11.44 meters), and overall height of 11.67 feet (3.56 meters). The wings a total area of 234.8 square feet (21.8 square meters). They have an angle of incidence of 1° with -1° 30′ of twist and 3° 49.8′ dihedral. The “T-Bird” has a basic weight of 9,637 pounds (4,371 kilograms), and gross weight of 15,280 pounds (6,931 kilograms).
Lockheed TP-80C-1-LO 48-356 prototype, with P-80C-1-LO Shooting Star 47-173, at Van Nuys Airport, California. (Lockheed Martin)
Originally produced with the J33-A-23 engine, the T-33 fleet was later standardized with the J33-A-35 engine. The J33 was a development of an earlier Frank Whittle-designed turbojet. It used a single-stage centrifugal-flow compressor, eleven combustion chambers and a single-stage axial-flow turbine section. The J33-A-35 had a Normal Power rating of 3,900 pounds of thrust (17.348 kilonewtons) at 11,250 r.p.m. (96%), and 4,600 pounds (20.462 kilonewtons) at 11,750 r.p.m. (100%). It was 107 inches (2.718 meters) long, 50.5 inches (1.283 meters) in diameter, and weighed 1,820 pounds (826 kilograms).
Cruise speed for maximum range is 0.68 Mach. The maximum speed is 505 knots (581 miles per hour/935 kilometers per hour), or 0.8 Mach, whichever is lower. Service ceiling 44,700 feet (1,3625 meters). The maximum range is 1,071 nautical miles (1,232 statute miles/1,983 kilometers).¹
While the P-80 fighter was armed with six .50-caliber machine guns in the nose, the trainer was usually unarmed. Two machine guns could be installed for gunnery training.
In production for 11 years, 5,691 T-33As were built by Lockheed, with licensed production of another 656 by Canadair Ltd., and 210 by Kawasaki Kokuki K.K. For over five decades, the “T-Bird” was used to train many tens of thousands of military pilots worldwide.
TF-80C 48-356 was rebuilt as the prototype for Lockheed’s YF-94A interceptor, and then modified further to the F-94B. Sources have reported it as being stored at Edwards Air Force Base, California.
Prototype Lockheed YF-94 48-356, first flight, 16 April 1949. (U.S. Air Force)
¹ Specifications and performance data from T-33A PERFORMANCE EVALUATION, AFFTC-TR-61-22, May 1961, Air Force Flight Test Center, Edwards Air Force Base, California. The Project Pilot was Captain Thomas P. Stafford, U.S. Air Force. Stafford was next selected for the NASA Gemini Program, and flew Gemini 6A and Gemini 9. He commanded Apollo 10.
The second prototype Grumman XF3F-1, Bu. No. 9727, photographed 10 January 1936. (U.S. Navy, Naval History and Heritage Command, NH 44277)
20 March 1935: At Farmingdale, New York, test pilot James H. (“Jimmy”) Collins took the Grumman Aircraft Engineering Corporation’s prototype XF3F-1, Bu. No. 9727, for its first flight. Collins made three flights that day.
[According to serial number authority, Joe Baugher, three XF3F-1 prototypes had the same manufacturer’s serial number, 257, and the same U.S. Navy Bureau of Aeronautics serial number, 9727. Two of them were destroyed during flight testing.]
Grumman XF3F-1 Bu. No. 9727, with landing gear extended. (San Diego Air & Space Museum Archives, Catalog #: 17_000148)
The XF3F-1 was a prototype fighter built for the United States Navy. It was a single-place, single-bay, wire-braced biplane with retractable landing gear. The airplane was of all metal construction. It was a development of the F2F, then in production.
Collins had performed nine dive tests of the XF3F-1. He began the tenth and final test at 6:05 p.m., 22 May 1935. After climbing to 20,000 feet (6,096 meters), he put the biplane into a full power, vertical dive. At a speed of 400 miles per hour (644 kilometers per hour), he pulled out of the dive at 8,000 feet (2,438 meters) but the airplane’s propeller and wings were torn off. An accelerometer indicated that the airplane had sustained a force of 14 gs. The airplane crashed into the Pinelawn Cemetery.
Witnesses at the scene (which included Collins’ sister, Mrs. Elizabeth Collins Joyhard) said that Collins was still alive when he was pulled from the wreckage. He is reported to have said, “Pull me out boys. I’m all through. Never mind wiping my face, I’m done.” ¹
For these tests, he was to have been paid $1,500. On his last day, he had told friends that he planned to stop flying and pursue a career as an aviation writer.
Grumman XF3F-1 Bu. No. 9727 (San Diego Air & Space Museum Archives, Catalog #: 16_003712)
The XF3F-1 used the same engine as the production F2F-1: An air-cooled, supercharged 1,534.94 cubic inch (25.15 liter) Pratt & Whitney S1A2 Twin Wasp Jr. (R-1535-72) two-row, 14-cylinder radial. This was a direct drive engine with a compression ratio of 6.75:1 requiring 87-octane gasoline. The supercharger impeller ratio was 12:1. The R-1535-72 was rated at 650 horsepower (485 kilowatts) at 2,200 r.p.m. at 7,500 feet (2,286 meters), and 700 horsepower (522 kilowatts) at 2,250 r.p.m. for takeoff.
Grumman F3F-1, Bu. No. 0211, s/n 274. This airplane crashed at sea near NAS Miami, March 1942. (San Diego Air & Space Museum, Roger Bilstein Collection 00032)
The production F3F-2 was 23 feet, 2 inches (7.061 meters) long with a wingspan of 32 feet (9.754 meters) and height of 9 feet, 4 inches (2.845 meters). The total wing area was 260 square feet (25.16 square meters). It had an empty weight of 3,285 pounds ( 1,490 kilograms), and maximum takeoff weight of 4,795 pounds (2,175 kilograms). Unlike the XF3F-1, the F3F-2 was powered by a Wright R-1820-22 rated at 950 horsepower. It had a maximum speed of 264 miles per hour (425 kilometers per hour) at 15,000 feet (4,572 meters), Its maximum rate of climb was 2,750 feet per minuted (14 meters per second), and the service ceiling was 33,200 feet (10,119 meters). It had a range of 980 miles (1,577 kilometers). The F3F-2 was armed by a .30-caliber Browning M1919 machine gun with 500 rounds of ammunition, and a .50-caliber Browning M2 machine gun with 200 rounds.
In August 1935 the U.S. Navy contracted for 54 F3F-1s. The first one was delivered 29 January 1936. A total of 147 F3Fs were built between 1935 and 1938. The F3F was the U.S. Navy’s last biplane fighter. The type was retired in 1943.
James H. Collins was born 25 April 1904, the second child of John Collins, an Irish immigrant to the United States, and Ella E. Ray Collins. His father died when Jimmy was four years old, and his mother, when he was 11. He then lived with an aunt and uncle.
Collins attended Central High School, Akron, Ohio, and worked nights at the B.F. Goodrich rubber factory. After graduating, he enrolled at the University of Akron. He was a member of the Lambda Delta Chi (ΛΔΧ) fraternity.
In 1924, Collins entered the U.S. Army Air Service Primary Flying School at Brooks Field, San Antonio, Texas, and then went on to the Advanced Flying School at Kelly Field, also in San Antonio. He was in the same class as Charles A. Lindbergh. After graduating, he was commissioned a second lieutenant in the New York National Guard, and assigned to the 102nd Observation Squadron, 27th Division Air Service, at Miller Field, Staten Island, New York.
During the Great Depression, Collins’ service with the New York National Guard did not provide full time employment. He had to work at other jobs, which included returning to B.F. Goodrich. In 1925, he briefly returned to the University of Akron, then volunteered for six months active duty with the 94th Pursuit Squadron at Selfridge Field, Harrison, Michigan. He served as assistant engineering and operations officer. He was then commissioned as a lieutenant in the regular Air Service, United States Army. He was assigned as an instructor at March Field, near Riverside, California and back at Brooks Field.
Unable to complete a formal university degree, Collins decided to gain the equivalent of a liberal arts degree through self study. It was around this time that he became a communist. He considered emigrating to the Union of Soviet Socialist Republics.
In 1927, Lieutenant Collins resigned his commission. He then worked as an inspector for the Department of Commerce, the federal agency overseeing civil aviation in the United States. That was followed by employment as chief test pilot for the Curtiss Aeroplane and Motor Company, Hammondsport, New York.
In 1932, Jimmy Collins married Miss Dolores Lacy. They would have two children, Darr, named after a friend of Jimmy’s, and Susan Ann Collins. With the depression ongoing, Collins often lived away from his family, having sent them to live with his older sister in Oklahoma. By doing dive tests, he had hoped to earn enough money to bring them back to New York.
James H. Collins’ remains were cremated at the Fairfield Mortuary, Garden City, New York, then spread from an airplane over the Atlantic Ocean off Jones Beach at 6:05 p.m., 29 March 1935.
Jimmy Collins was the author of Test Pilot, published after his death by The Sun Dial Press, Garden City, New York.
LaVerne Ward Browne, Director of Flight Test, Douglas Aircraft Company, in the cockpit of the first XBT2D-1 Dauntless II prototype, Bu. No. 9085. (Photograph courtesy of Neil Corbett, Test and Research Pilots, Flight Test Engineers)
18 March 1945: At the Naval Airplane Factory, El Segundo, California (at the southeast corner of Los Angeles Airport, now best known as LAX), Douglas Aircraft Company Director of Flight Test LaVerne Ward (“Brownie”) Browne took the prototype XBT2D-1 Dauntless II, Bu. No. 9085, for its first flight.
He later commented, “I wish I could tell of some dramatic incident that occurred. There wasn’t any. I just floated around up there for an hour and a half and brought her down. But I did do something that’s unprecedented, I believe, for a first trip. The airplane handled so well that I put it through rolls and Immelmanns to check it for maneuverability.”
The first prototype Douglas XBT2D-1 Dauntless II, Bu. No. 9085. In this photograph the airplane has a propeller spinner. (Douglas Aircraft Company)
The XBT2D-1 would be ordered into production as the Douglas AD-1 Skyraider.
Designed by Douglas’ Chief Engineer, Edward Henry Heinemann, the XBT2D-1 was a single-place, single-engine attack bomber capable of operation from the U.S. Navy’s aircraft carriers. The prototype was 39 feet, 5 inches (12.014 meters) long with a wingspan of 50 feet, ¼ inch (15.246 meters) and overall height of 15 feet, 7½ inches (4.763 meters). The airplane had an empty weight of 10,093 pounds (4,578 kilograms) and maximum weight of 17,500 pounds (7,938 kilograms).
The first four XBT2D-1 prototypes were powered by an air-cooled, supercharged, 3,347.662-cubic-inch-displacement (54.858 liter) Wright Aeronautical Division R3350-8 (Cyclone 18 779C18BB1) twin-row 18-cylinder radial engine rated at 2,100 horsepower at 2,400 r.p.m., and 2,400 horsepower at 2,600 r.p.m., for takeoff. The next 20 airplanes built utilized the R3350-24W (Cyclone 18 825C18BD1) which had a takeoff power rating of 2,500 horsepower at 2,900 r.p.m.
Both engines had a compression ration of 6.5:1 and a propeller drive reduction ratio of 0.4375:1. They differed in external dimensions and weight, with the –24W being both longer and heavier.
Test pilot LaVerne Brown in the cockpit of Douglas XBT2D-1 Dauntless II Bu. No. 9085 during a test flight. (Douglas Aircraft Company)
The XBT2D-1 had a maximum speed of 375 miles per hour (604 kilometers per hour) at 13,600 feet (4,145 meters) and normal cruise speed of 164 miles per hour (264 kilometers per hour).
The first XBT2D-1, Bu. No. 9085, was sent to NAS Patuxent River, Maryland, for further testing. The second, 9086, went to NACA Ames at Moffet Field, California, where it underwent testing from 11 March 1946 to 4 September 1947.
The second prototype XBT2D-1, Bu. No. 9086, at the NACA Ames Research Center, Moffet Field, California, 18 June 1946. (NASA)
3,180 Skyraiders in 11 variants were built at the Douglas Aircraft Company’s El Segundo, California, plant from 1945 to 1957. The attack bomber was widely used during the Korean War and the Vietnam War. It was utilized for many purposes but is best known for its close support missions during combat rescue operations. After 1962, the AD-series aircraft still in service were redesignated A-1E through A-1J.
Douglas XBT2D-1 Skyraider Bu. No. 9086 at NACA Ames Research Center, 18 June 1946. (NASA)
The most numerous Skyraider variant was the AD-6 (A-1H), of which 713 were produced by Douglas. The AD-6 was 38 feet, 10 inches (11.836 meters) long with a wingspan of 50 feet, 9 inches (15.469 meters) and overall height of 15 feet, 8¼ inches (4.782 meters). Its empty weight was 11,968 pounds (5,429 kilograms) and gross weight was 18,106 pounds (8,213 kilograms). The maximum takeoff weight (MTOW) for the AD-6 was 25,000 pounds (11,340 kilograms).
Douglas AD-4 Skyraider of VA-195 taking off from USS Princeton (CV-37) circa 1950–52 (U.S. Navy)
The Douglas AD-6 was powered by an air-cooled, supercharged, direct-fuel-injected, 3,347.662-cubic-inch-displacement (54.858 liter), Wright Aeronautical Division R-3350-26WA (Cyclone 18 836C18CA1) twin-row 18-cylinder radial engine, with water/alcohol injection. This engine has a compression ratio of 6.71:1. The R-3350-26W has a Normal Power rating of 2,300 horsepower at 2,600 r.p.m., and a Takeoff/Military Power rating of 2,700 horsepower at 2,900 r.p.m., using 115/145 aviation gasoline. The engine drives a four-bladed Aeroproducts constant-speed propeller with a diameter of 13 feet, 6 inch (4.115 meters) through a 0.4375:1 gear reduction. The engine is 4 feet, 7.62 inches (1.413 meters) in diameter and 6 feet, 6.81 inches (2.002 meters) long. It weighs 2,848 pounds (1,292 kilograms), dry.
The AD-6/A-1H Skyraider had a cruise speed of 198 miles per hour (319 kilometers per hour) and a maximum speed of 322 miles per hour (518 kilometers per hour). The ceiling was 29,400 feet (8,961 meters) and its combat radius carrying 2,000 pounds (907 kilograms) of ordnance was 275 miles (443 kilometers).
A U.S. Marine Corps Douglas AD-4 Skyraider, Bu. No. 127874, of VMF-121 is parked at airfield K-6, Pyongtaek, South Korea, 1952. The hard points under the wings are fully loaded with bombs. The aircraft is painted overall glossy sea blue. (Navy Pilot Overseas)Douglas AH-1H Skyraider 52-137593 of the 602nd Special Operations Squadron. (U.S. Air Force)
The AD-6 Skyraider was armed with four 20mm AN-M2 autocannons, with two in each wing, and 200 rounds of ammunition per gun. The guns fired explosive projectiles with a muzzle velocity of 2,850 feet per second (869 meters per second), and had a rate of fire of 600–700 rounds per minute. The AD-6 could carry 8,000 pounds (3,629 kilograms) of bombs, rockets, gun pods and external fuel tanks from the 15 hard points and pylons under the wings and fuselage.
A Douglas A-1J Skyraider, 52-142016, of the 6th Special Operations Squadron, dive bombing a target during a close air support mission, Vietnam, 1968. (U.S. Air Force)
Many United States Navy and Marine Corps Skyraiders were transferred to the U.S. Air Force. The Air Force retained the Navy’s Bureau of Aeronautics serial numbers (“Bu. No.”) but added two digits corresponding to the fiscal year in which each airplane was originally contracted. This resulted in serial numbers similar, though longer, than customary in the Air Force and Army numbering system.
The oldest Skyraider in existence is XBT2D-1 Bu. No. 9102. Formerly on display at NAS Oceana, Virginia Beach, Virginia, the airplane was transferred to The Intrepid Sea, Air & Space Museum in New York City for restoration and preservation.
Douglas A-1H Skyraider 52-139738, 1st Special Operations Squadron. Lieutenant Colonel William A. Jones III, commanding the 602nd Special Operations Squadron, flew this airplane on 1 September 1968 during a Combat Search and Rescue mission for which he was awarded the Medal of Honor. On 22 September 1972, -738 was shot down over Laos. It was the last Skyraider shot down during the Vietnam War. (U.S. Air Force)
LaVerne Ward Browne was born at Orange, California, 9 December 1906. He was the third child of Edwin J. Brown, a farm worker, and Phebe Alice Proctor Brown. He studied law at the University of Southern California (USC).
In 1928, Brown learned to fly at the Hancock College of Aeronautics, Santa Maria, California. He then worked as a pilot for Transcontinental and Western Airways, flying the Douglas DC-2. He was also commissioned as a second lieutenant in the United States Army Air Corps Reserve.
Browne married Miss Dorothy Leonore Bach at Los Angeles, California, 28 January 1926. They had a daughter, Barbara May Browne, born 6 December 1926, but later divorced. One 12 June 1933, Browne married Harriette Fitzgerald Dodson at Norfolk, Virginia.
From 1931 to 1941, under the pseudonym “John Trent,” Browne performed in sixteen Hollywood movies, including “I Wanted Wings,” with William Holden, Ray Milland and Veronica Lake. He played the character “Tailspin Tommy Tompkins” in four: “Danger Flight,” “Sky Patrol,” “Stunt Pilot,” and “Mystery Plane.”
Browne worked for Douglas Aircraft Company from 1942 to 1957. He died 12 May 1966 at Palos Verdes, California, at the age of 59 years.
“John Trent” (LaVerne Ward Browne) portrayed “Tailspin Tommy Tompkins” in four Hollywood movies. (Monogram Pictures Corporation via IMDb)
17 March 1969: First flight, Société nationale des constructions aéronautiques du Sud-Est test pilot Roland Coffignot and flight engineer Gérard Boutin made the first flight of the prototype SA 315A Lama, serial number 315-001. The new helicopter combined the airframe of the SNCASE Alouette II with the drive train and rotors of the Alouette III.
The helicopter was built to meet the specific needs of the Indian Air Force for operations in the Himalayan Mountains. It was required to take off and land at an altitude of 6,000 meters (19,685 feet) while carrying a pilot, one passenger and 200 kilograms (441 pounds) of cargo. The SA 315A was able to exceed this, landing and taking off in the Karakoram Mountains at 6,858 meters (22,500 feet).
315-001 was later upgraded to the SA 315 B configuration. It was registered F-BPXS. On 19 June 1972, Aérospatiale Chief Test Pilot Jean Boulet with Gérard Boutin set a Fédération Aéronautique Internationale (FAI) World Record for Altitude Without Payload at 10,836 meters (35,551 feet).¹ Three days later, 21 June, Boulet set another three World Records by flying 315-001 to an altitude of 12,442 meters (40,820 feet).²
SNCASE SA 315 B 001. (Airbus Helicopters)
The SA 315 B Lama is a 5-place light helicopter powered by a turboshaft engine. It is operated by a single pilot. The fuselage is 10.236 meters (33 feet, 7.0 inches) long. With rotors turning, the helicopter has an overall length of 12.919 meters (42 feet, 4.6 inches) and height of 3.090 meters (10 feet, 1.7 inches). The SA 315 B has an empty weight of 1,021 kilograms (2,251 pounds) and a maximum gross weight of 1,950 kilograms (4,300 pounds). With an external load carried on its cargo hook, the allowable maximum gross weight is 2,300 kilograms (5,070 pounds).
Aérospatiale SA 315 B Lama three-view illustration with dimensions. (Aérospatiale Hélicoptères)
The three-bladed, fully-articulated main rotor has a diameter of 11.020 meters (36 feet, 1.9 inches). It turns clockwise, as seen from above. (The advancing blade is on the left side of the helicopter.) Normal main rotor speed, NR, is 350–360 r.p.m. The range in autorotation ins 270–420 r.p.m. The three-bladed anti-torque tail rotor is mounted on the left side of the tail boom in pusher configuration. It is 1.912 meters (6 feet, 3.3 inches) in diameter and turns clockwise, as seen from the helicopter’s left side. (The advancing blade is below the axis of rotation.) It turns at 2,020 r.p.m.
Aérospatiale SA 315 B Lama F-BPXS, s/n 315-001, lifting an external load on its cargo hook, 1980. (Kenneth Swartz)
The Lama was initially powered by a Societé Anonyme Turboméca Artouste III B (later aircraft, Artouste III B1) turboshaft engine. This is a single-shaft engine with a single-stage axial-flow, single-stage centrifugal flow, compressor section and a three-stage turbine. The engine turns 33,500 r.p.m. and the output drive shaft turns 5,773 r.p.m. The Artouste III B1 produces a maximum 870 horsepower, but is derated to 570 horsepower for installation in the Lama. The engine is 1.815 meters (5 feet, 11.5 inches) long, 0.667 meters (2 feet, 2.3 inches) high and 0.520 meters (1 foot, 8.5 inches) wide. It weighs 178 kilograms (392 pounds).
The helicopter has a cruise speed 98 knots (113 miles per hour/181 kilometers per hour) and a maximum speed (VNE) of 113 knots (130 miles per hour/209 kilometers per hour) at Sea Level. Sideward or rearward flight (or operations in crosswinds or tailwinds) are restricted to 18 knots. The maximum operating altitude is 7,000 meters (22,966 feet). At 1,950 kilograms (4,299 pounds), the Lama has a hover ceiling in ground effect (HIGE) of 5,050 meters (16,568 feet), and out of ground effect (HOGE), 4,600 meters (15,092 feet).
Société nationale des constructions aéronautiques du Sud-Est became Societe nationale industrielle aérospatiale (SNIAS) in 1970. The company produced the SA 315 B Lama beginning in 1971. It was also built under license by Hindustan Aeronautics in India and Helibras in Brazil.
The total number of SA 315 Bs and its variants built is uncertain. In 2010, Eurocopter, the successor to Aérospatiale, announced that it will withdraw the Lama’s Type Certificate in 2020.
North American Aviation XB-45 45-59479 in flight. (U.S. Air Force 061020-F-1234S-013)
17 March 1947: The prototype of the United States’ first jet-powered bomber, the North American Aviation XB-45 Tornado, 45-59479, made a one-hour first flight at Muroc Army Air Field in the high desert of southern California (later known as Edwards Air Force Base), with company test pilot George William Krebs and flight engineer Paul W. Brewer.
The Valley Times reported:
Secret Jet Bomber in First Hop
MUROC ARMY AIR FIELD, Calif., March 18—(AP)—America’s first bombing plane with four jet-propulsion engines—the B-45 which has been in secret production for many months—made an initial flight at this field yesterday.
The sleek North American Aviation, Inc., plane, with a wing-spread of 89½ feet and a length of 141 feet, [sic] has lines resembling a fighter more than a bomber and was described by the Army Air Forces as having an “exceedingly high” speed.
George Krebs, North American test pilot, flew the plane for its test, accompanied by Flight Engineer Paul W. Brewer.
The B-45 is considerably smaller than the famed B-29 but company officials said it is a heavy bomber by World War II standards. The company said its range approximates that of earlier heavy bombers while carrying a “substantially” heavier load.
The four General Electric J-35 jet engines are housed in pairs in single nacelles on each wing.
North American Aviation received a $73,900,000 contract to build 96 B-45s for the United States Army Air Forces within the next two years. They would be built by NAA in a leased portion of the Douglas Aircraft Company plant at Long Beach, California.
The photographs below show the XB-45 parked on Muroc Dry Lake. Notice that the windows over the bombardier’s compartment in the nose are painted on.
The North American Aviation XB-45 Tornado was a prototype four-engine bomber. It had a high-mounted straight wing and tricycle landing gear. It was 74 feet, 0 inches (22.555 meters) long with a wingspan of 89 feet, 6 inches (27.279 meters) and overall height of 25 feet, 2 inches (7.671 meters). It had an empty weight of 41,876 pounds (18,995 kilograms) and maximum takeoff weight of 82,600 pounds (37,467 kilograms).
North American Aviation XB-45 Tornado 45-59479 parked on the dry lake bed at Muroc Army Airfield, California. (U.S. Air Force 061020-F-1234S-015)
North American Aviation XB-45 Tornado 45-59479 parked on Muroc Dry Lake. (U.S. Air Force 061020-F-1234S-016)North American Aviation XB-45 45-59479 makes a low pass over the runway. (U.S. Air Force 061020-F-1234S-018)
The three prototypes were powered by four Allison-built General Electric J35-A-4 turbojet engines, installed in nacelles which were flush with the bottom of the wings. The J35 was a single-shaft engine with an 11-stage axial-flow compressor section and a single-stage turbine. The J35-A-4 was rated at 4,000 pounds of thrust (14.79 kilonewtons). The engine’s maximum speed was 8,000 r.p.m. The J35 was 14 feet, 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 maximum speed of the XB-45 was 494 miles per hour (795 kilometers per hour) at Sea Level and 516 miles per hour (830 kilometers per hour) at 14,000 feet (4,267 meters). The service ceiling was 37,600 feet (11,461 meters).
North American Aviation XB-45 45-59479 as a test bed for rocket assisted take-off, 24 September 1958. Production B-45s could be equipped with two Aerojet XLR13-AJ-1 Assisted Take-Off rocket engines, producing 4,000 pounds (17.79 kilonewtons) of thrust for 60 seconds. (U.S. Air Force 061020-F-1234S-017)
The production B-45A Tornado, made its first flight 24 February 1948, when George Krebs and Nick Pickard flew it from the NAA plant at Long Beach Airport to Muroc Army Air Field. The duration of the flight was 1 hour, 4 minutes. It was heavier that the XB-45 and had better performance. It was operated by two pilots, a bombardier/navigator and a tail gunner. It was 75 feet, 4 inches (22.962 meters) long with a wingspan of 89 feet, 0 inches (27.127 meters) and overall height of 25 feet, 2 inches (7.671 meters).
The B-45A had a total wing area of 1,175 square feet (109.2 square meters). The leading edges were swept aft 3° 30′. Their angle of incidence was 3° with -3° 30′ twist and 1° dihedral.
The bomber’s empty weight was 45,694 pounds (20,726 kilograms) and maximum takeoff weight was 91,775 pounds (41,628 kilograms).
Cutaway illustration of the North American Aviation B-45 Tornado showing internal structure and arrangement. (U.S. Air Force 061020-F-1234S-019)
The B-45A was powered by four General Electric J47-GE-13 turbojet engines. The J47 was an axial-flow turbojet with a 12-stage compressor and single stage turbine. It had a normal power rating of 4,320 pounds of thrust (19.216 kilonewtons) at 7,370 r.p.m.; military power, 5,200 pounds (23.131 kilonewtons) at 7,950 r.p.m. (30-minute limit); and maximum power rating of 6,000 pounds(26.689 kilonewtons) at 7,950 r.p.m., with water/alcohol injection (5-minute limit). The engine was 12 feet, 0.0 inches (3.658 meters) long, 3 feet, 3.0 inches (0.991 meters) in diameter and weighed 2,525 pounds (1,145 kilograms).
The B-45A Tornado had a cruise speed of 393 knots (452 miles per hour/728 kilometers per hour), and maximum speed of 492 knots (566 miles per hour (911 kilometers per hour) at 4,000 feet (1,219 meters). Its service ceiling was 46,800 feet (14,265 meters) and it had a maximum range of 1,886 nautical miles (2,170 statute miles/3,493 kilometers). An auxiliary 1,200 gallon (4,543 liters) fuel tank could be installed in the bomb bay.
North American Aviation B-45A-5-NA Tornado 47-025 salvos a load of bombs. (U.S Air Force)
The bomb load was 22,000 pounds (9,979 kilograms). It was capable of carrying the M110 (T-14), the U.S. version of the RAF’s “Grand Slam” bomb.) Two Browning .50-caliber AN-M3 machine guns were mounted in the tail for defense, with 600 rounds of ammunition per gun.
41 B-45As were modified to the “Back Breaker” configuration, which enabled them to be armed with nuclear weapons.
The B-45 served with both the United States Air Force and the Royal Air Force (RB-45C reconnaissance variant). 143 were built, including the three XB-45 prototypes. They served with the United States Air Force until 1959.
An early production North American Aviation B-45A-1-NA Tornado, 47-011. (U.S. Air Force 061020-F-1234S-028)
On 20 September 1948, near Alpaugh, California, the first production B-45A-1-NA Tornado, 47-001, was put into a dive to test the airplane’s design load factor. During the dive, one of the engines exploded, which tore off several cowling panels. These hit the horizontal stabilizer, damaging it. The B-45 pitched up, and both wings failed due to the g load. The prototype had no ejection seats and test pilots George Krebs and Nicholas Gibbs Pickard, unable to escape, were both killed.
George William Krebs
George William Krebs was born in Kansas City, Missouri, 5 March 1918. He was the first of three children of William J. Krebs, an advertising executive, and Betty Schmitz Krebs. He attended Southwest High School, graduating in 1935.
Krebs studied at the Massachussetts Instititute of Technology (M.I.T.) at Cambridge, Massachussetts. He was a member of the Sigma Chi (ΣΧ) fraternity.
In 1940, Krebs was the owner of a Luscombe airplane distributorship in Kansas City. He had brown hair, blue eyes and a ruddy complexion. He was 5 feet, 9 inches tall (1.75 meters) and weighed 135 pounds (61 kilograms).
George Krebs married Miss Alice Bodman Neal at Kansas City, Missouri, 26 December 1942. They would have two children William and Charlotte.
During World War II, Krebs was employed as a test pilot at the North American Aviation, Inc., B-25 Mitchell medium bomber assembly plant at Kansas City, Kansas. Prior to taking over the XB-45 project, he was the chief test pilot at K.C.
North American Aviation B-25 Mitchell medium bombers near completion at the Kansas City, Kansas, bomber plant, circa 1944. (Alfred T. Palmer/U.S. Office of War Information)Nicholas Gibbs Pickard
Nicholas Gibbs Pickard was born at Brooklyn, New York, 5 November 1916. He was the second of three children of Ward Wilson Pickard, a lawyer, and Alice Rossington Pickard.
During World War II, Pickard served as a ferry pilot for the Royal Air Force Transport Command.
On 21 January 1944, Captain Pickard married Miss Kathleen Baranovsky at Montreal, Quebec, Canada. They had two daughters, Sandra and Manya.
Following the war, Pickard was employed as a test pilot by North American Aviation.
Nicholas Gibbs Pickard was buried at the Pacific Crest Cemetery, Redondo Beach, California.
