Tag Archives: National Advisory Committee for Aeronautics

Albert Scott Crossfield, Jr. (2 October 1921–19 April 2006)

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Albert Scott Crossfield, aeronautical engineer and test pilot, 1921–2006. (Jet Pilot Overseas)
Albert Scott Crossfield, Jr., Aeronautical Engineer and Test Pilot, 1921–2006. (Jet Pilot Overseas)

Albert Scott Crossfield, Jr., was born at Berkeley, California, 2 October 1921, the second of three children of Albert Scott Crossfield and Lucia Dwyer Scott Crossfield. (“Scott Crossfield” is the family name, going back for many generations.) His father was a chemist who was the superintendent of the Union Oil Refinery in Wilmington, California. At the age of 5 years, the younger Scott Crossfield contracted pneumonia. He was comatose for a time and not expected to survive. When he finally began to recover, he was confined to bed for many months. The effects of this illness lasted throughout his childhood.

It was during this time that he developed his interest in aviation. He learned to draw, studied airplanes, and built scale models. Charles F. (“Carl”) Lienesch, who was a pilot for the Union Oil Company, gave Scotty his first ride aboard an airplane at age 6. As a teenager, he took flight lessons in an Inland Sportster at the Wilmington Airport.

Inland R400 Sportster NC267N, circa 1939. (William T. Larkins)

After his family bought a farm in Oregon, Scott Crossfield continued flight lessons and soloed a Curtis Robin at the age of 15. He earned his private pilot certificate at 18. After graduating from high school, “Scotty” helped his father with the family farm before attending the University of Washington as a student of aeronautical engineering. He took a job at Boeing to pay his tuition and support.

Ensign A. S. Crossfield, Jr.

After America’s entry into World War II, Scott Crossfield enlisted in the U.S. Army Air Corps as an aviation cadet, but because of expected delays in training, quickly transferred to the U.S. Navy. He enlisted as a Seaman 2/c in the Navy’s V-5 Program at the Naval Reserve Aviation Base, Seattle, Washington, on 21 February 1942. He began Primary Flight Training there, 7 May 1942. Scotty completed military flight training and was commissioned an Ensign, United States Navy, in December 1942.

On 21 April 1943, Ensign Albert Scott Crossfield, U.S. Navy, married Miss Alice Virginia Knoph at Corpus Christi, Texas.

Promoted to lieutenant (junior grade) with date of precedence 21 March 1944.

During World War II, Scott Crossfield served as a fighter pilot, flight and gunnery instructor, flying the Chance Vought F4U Corsair and Grumman F6F Hellcat. Though he was assigned to Fighting Squadron FIFTY-ONE (VF-51) aboard the Independence-class light aircraft carrier USS Langley (CVL-27), he did not serve in combat. He was promoted to the rank of lieutenant 1 August 1945. Scotty was released from active duty 31 December 1945. After the war he joined a Naval Reserve squadron and flew the Goodyear Aircraft Co. FG-1D Corsair at NAS Sand Point, Washington.

A Goodyear FG-1D Corsair, Bu. No. 92150, unfolding its wings at NAS Sand Point, circa late 1940s. The orange band around the fuselage shows that this airplane is assigned to a Naval Reserve squadron. (U.S. Navy)

During this time he resumed his education at the University of Washington and graduated with a bachelor’s degree in aeronautical engineering in 1949, and a master’s degree in 1950. As a graduate student he was the operator of the university’s Kirsten Aeronautical Laboratory wind tunnel.

The NACA High Speed Flight Station, 24 August 1954. The Boeing P2B-1S Superfortress is parked at the northeast corner of the ramp. (NASA)

In 1950 Scott Crossfield joined the National Advisory Committee for Aeronautics (NACA, the predecessor of NASA) as an Aeronautical Research Pilot at the NACA High Speed Flight Station, Edwards Air Force Base, California. He flew many high-performance jet aircraft like the North American Aviation F-100 Super Sabre, and experimental airplanes such as the Convair XF-92, Douglas X-3, Bell X-4 and X-5. He also flew the research rocket planes, making 10 rocket flights in the Bell X-1 and 77 in the Douglas D-558-II Skyrocket.

Douglas D-558-2 Bu. No. 37974 dropped from Boeing P2B-S1 Superfortress 84029, 1 January 1956. (NASA)
Douglas D-558-2 Skyrocket, Bu. No. 37974, is dropped from Boeing P2B-S1 Superfortress, Bu. No. 84029, 1 January 1956. (NASA)

On 20 November 1953, Scott Crossfield became the first pilot to fly faster than twice the speed of sound (Mach 2). The D-558-II was carried aloft by a Boeing P2B-1S Superfortress drop ship (a four-engine B-29 long range heavy bomber which had been transferred from the U.S. Air Force to the Navy, then heavily modified by Douglas) to 32,000 feet (9,754 meters) and then released. Scotty fired the LR8 rocket engine and climbed to 72,000 feet (21,945 meters). He put the Skyrocket into a shallow dive and, still accelerating, passed Mach 2 at 62,000 feet (18,898 meters). After the rocket engine’s fuel was expended, he flew the rocketplane to a glide landing on Rogers Dry Lake.

In 1955 Crossfield left NACA and joined North American Aviation, Inc., as Chief Engineering Test Pilot. He planned and participated in the design and operation of the X-15 hypersonic research rocketplane for the Air Force and NASA. He also worked closely with the David Clark Co., in the development of the project’s full-pressure suits.

Scott Crossfield testing an experimental David Clark Co. XMC-2 full-pressure suit in a thermal chamber at Wright Field. (Ralph Morse, LIFE Magazine/National Archives College Park Collection)

Milton O. Thompson, another X-15 test pilot, wrote in At the Edge of Space,

“. . . he was intimately involved in the design of the aircraft and contributed immensely to the success of the design, as a result of his extensive rocket airplane experience. . . Scott was responsible for a number of other excellent operational and safety features built into the aircraft. Thus, one might give Scott credit for much of the success of the flight program. . . .”

At the Edge of Space, by Milton O. Thompson, Smithsonian Institution Press, Washington and New York, 1992, at Page 3

Scott Crossfield, NAA Chief Engineering Test Pilot; Edmond Ross Cokeley, NAA Director of Flight Test;  and Charles H. Feltz, NAA Chief Engineer, with an X-15 hypersonic research rocketplane. (North American Aviation via Jet Pilot Overseas)

In 1959–1960, Scott Crossfield flew all of the contractor’s demonstration phase flights for the X-15, including 16 captive carry flights under the wing of the NB-52A Stratofortress while systems were tested and evaluated, one glide flight, and thirteen powered flights. He reached a a maximum altitude of 88,116 feet (26,858 meters) on Flight 6, and a maximum speed of Mach 2.97 (1,960 miles per hour/3,154 kilometers per hour) on Flight 26. The X-15 was then turned over to NASA and the Air Force. The X-15 Program involved a total of 199 flights from 1959 until 1968.

A. Scott Crossfield, wearing a David Clark Co. XMC-2 full-pressure suit, which he helped to design and test, with the first of three North American X-15s, 56-6670. (North American Aviation, Inc.)

After leaving the X-15 Program, Scott Crossfield continued as a Systems Director with North American Aviation, Inc., working on the Apollo Command and Service Module and the S-IVB second stage of the Saturn V rocket. He left North American in the late ’60s and served as an executive with Eastern Air Lines and Hawker Siddeley. He also continued as a aeronautical engineering consultant to private industry and government.

Among many other awards, Scott Crossfield was received the Harmon Trophy, the Collier Trophy, and the Iven C. Kincheloe Award of the Society of Experimental Test Pilots..

Scott Crossfield's 1962 Cessna 210A Centurion, photographed at Santa Monica Airport, California, 26 September 1999. (AirNikon Collection, Pima Air & Space Museum, Tucson, Arizona via airliners.net)
Scott Crossfield’s Cessna 210A Centurion, N6579X, photographed at Santa Monica Airport, California, 26 September 1999. (AirNikon Collection, Pima Air & Space Museum, Tucson, Arizona via airliners.net, used with permission)

In 1980 Crossfield resumed flying when he purchased a 1960 Cessna 210A Centurion, N6579X, serial number 21057579. This was a single-engine, four-place light airplane, powered by an air-cooled Continental six-cylinder engine. He had flown more than 2,000 hours in this airplane when it crashed during a severe thunderstorm, 19 April 2006, while on a flight from Prattville, Alabama, to Manassas, Virginia.

Albert Scott Crossfield, Jr., was killed. His remains are interred at the Arlington National Cemetery, Arlington, Virginia.

Albert Scott Crossfield, Jr., Test Pilot. (LIFE Magazine via Jet Pilot Overseas)

Highly recommended: Always Another Dawn: The Story Of A Rocket Test Pilot, by Albert Scott Crossfield and Clay Blair, Jr., The World Publishing Company, Cleveland and New York, 1960.

© 2018, Bryan R. Swopes

Medal of Honor, Captain Edward Vernon Rickenbacker, Air Service, American Expeditionary Force

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Captain Edward V. Rickenbacker, Air Service, American Expeditionary Force.

The President of the United States
in the name of The Congress
takes pleasure in presenting the

Medal of Honor

to

EDWARD V. RICKENBACKER 

Rank and organization: First Lieutenant, 94th Aero Squadron, Air Service.

Place and date: Near Billy, France, 25 September 1918.

Entered service at: Columbus, Ohio. Born: 8 October 1890, Columbus, Ohio.

G.O. No.: 2, W.D., 1931.

Citation:

For conspicuous gallantry and intrepidity above and beyond the call of duty in action against the enemy near Billy, France, 25 September 1918. While on a voluntary patrol over the lines, 1st Lt. Rickenbacker attacked seven enemy planes (five type Fokker, protecting two type Halberstadt). Disregarding the odds against him, he dived on them and shot down one of the Fokkers out of control. He then attacked one of the Halberstadts and sent it down also.

Eddie Rickenbacker’s Medal of Honor at the National Museum of the United States Air Force.

Edward Reichenbacher was born 8 October 1890 at Columbus, Ohio. He was the third of seven children of Wilham and Elizabeth Reichenbacher, both immigrants to America from Switzerland. His formal education ended with the 7th grade, when he had to find work to help support the family after the death of his father in 1904. He worked in the automobile industry and studied engineering through correspondence courses. Reichenbacher was a well known race car driver and competed in the Indianapolis 500 race four times. He was known as “Fast Eddie.”

"Fast Eddie" Rickenbacker raced this Deusenberg in the 1914 Indianapolis 500 mile race. He finished in 10th place. (Coburg)
“Fast Eddie” Rickenbacker raced this red, white and blue Deusenberg in the 1914 Indianapolis 500-mile race. He finished in 10th place with an average speed of 70.8 miles per hour (113.9 kilometers per hour), and won $1,500 in prize money. (Coburg)

With the anti-German sentiment that was prevalent in the United States during World War I, Reichenbacher felt that his Swiss surname sounded too German, so he changed his name to “Rickenbacker.” He thought that a middle name would sound interesting and selected “Vernon.”

The United States declared war against Germany in 1917. Edward Vernon Rickenbacker enlisted in the Aviation Section, Signal Corps, United States Army, at New York City, 28 May 1917. He was appointed a sergeant, 1st class, on that date. After arriving in France, Sergeant Rickenbacker served as a driver for General John Pershing.

On 10 October 1917, Sergeant Rickenbacker was honorably discharged to accept a commission as a 1st lieutenant. Two weeks later, Lieutenant Rickenbacker was promoted to the rank of captain. He was assigned to 3rd Aviation Instruction Center, Issoudun, France, until 9 April 1918, and then transferred to the 94th Aero Squadron as a pilot.

Identity card for Captain E. V. Rickenbacker (National Museum of the United States Air Force)

Captain Rickenbacker served with the American Expeditionary Forces in France, and served during the following campaigns: Champagne-Marne, Aisne-Marne, Oise-Aisne, St. Mihiel, Meuse-Argonne. Between 29 April and 30 October 1918, Rickenbacker was officially credited with 26 victories in aerial combat, consisting of 20 airplanes and 6 balloons. He shot down the first six airplanes while flying a Nieuport 28 C.1, and the remainder with a SPAD S.XIII C.1., serial number S4253.

1st Lieutenant Edward V. Rickenbacker in the cockpit of a Nieuport 28 C.1 fighter, France, 1918. (U.S. Air Force)

Rickenbacker was awarded the Distinguished Service Cross with seven bronze oak leaf clusters (eight awards). France named him a Chevalier de la légion d’honneur and twice  awarded him the Croix de Guerre with Palm.

Eddie Rickenbacker is quoted as saying, “Courage is doing what you’re afraid to do. There can be no courage unless you’re scared.”

First Lieutenant Edward V. Rickenbacker with his SPAD S.XIII C.1, 94th Aero Squadron, photographed near Rembercourt, Meurthe et Moselle, France, 18 October 1918. (Signal Corps, U.S. Army, 50126)
First Lieutenant Edward V. Rickenbacker, 94th Aero Squadron, in the cockpit of his SPAD XIII C.1, 18 October 1918. (U.S. Army Signal Corps)
First Lieutenant Edward V. Rickenbacker, 94th Aero Squadron, in the cockpit of his SPAD XIII C.1, 18 October 1918. (U.S. Army Signal Corps)

In 1930, after Charles A. Lindbergh, Commander Richard E. Byrd, Jr., and Warrant Officer Floyd Bennett had each been awarded the Medal of Honor for valorous acts during peacetime, the 71st Congress of the United States passed a Bill (H.R. 325): “Authorizing the President of the United States to present in the name of Congress a congressional medal of honor to Captain Edward V. Rickenbacker.”

In a ceremony at Bolling Field, the headquarters of the U.S. Army Air Corps, 6 November 1930, the Medal of Honor was presented to Captain Rickenbacker by President Herbert Hoover. President Hoover remarked,

“Captain Rickenbacker, in the name of the Congress of the United States, I take great pleasure in awarding you the Congressional Medal of Honor, our country’s highest decoration for conspicuous gallantry and intrepidity above an beyond the call of duty in action. At a stage in the development of aviation when you were achieving victories which made you the universally recognized ‘Ace of Aces’ of the American forces. Your record is an outstanding one for skill and bravery, and is a source of pride to your comrades and your countrymen.

“I hope that your gratification in receiving the Medal of Honor will be as keen as mine in bestowing it. May you wear it during many years of happiness and continued service to your country.”

In 1920, Rickenbacker founded the Rickenbacker Motor Company, which produced the first automobile with four wheel brakes.

Adelaide Frost Durant (Auburn University Libraries)
Adelaide Frost Durant (Auburn University Libraries)

Eddie Rickenbacker married Adelaide Pearl Frost (formerly, the second Mrs. Russell Durant) at Greenwich, Connecticut, 16 September 1922. They would later adopt two children.

From 1927 to 1945, he owned the Indianapolis Motor Speedway. In 1938, he bought Eastern Air Lines, which he had operated for General Motors since 1935. He was the chief executive officer (CEO) until 1959, and remained chairman of the board of directors until 1963.

In 1941, Rickenbacker was gravely injured in the crash of an Eastern Air Lines DC-3 aboard which he was a passenger. He barely survived.

During World War II, Rickenbacker was requested by Secretary of War Henry Stimson to undertake several inspection tours in the United States, England, the Pacific and the Soviet Union. While enroute to Canton Island from Hawaii, 21 October 1942, the B-17D Flying Fortress that he was traveling aboard missed its destination due to a navigation error. The bomber ran out of fuel and ditched at sea. The survivors drifted in two small life rafts for 21 days before being rescued. All credited the leadership of Rickenbacker for their survival.

Rickenbacker was a member of the National Advisory Committee on Aeronautics, the predecessor of NASA.

Edward Vernon Rickenbacker died of heart failure at Neumünster Spital, Zollikerberg, Zürich, Switzerland, at 4:20 a.m., 23 July 1973. He was 82 years, 10 months of age.

SPAD S.XIII C.1, s/n 16594, built October 1918 by Kellner et ses Fils, Paris (U.S. Air Force)
This restored SPAD S.XIII C.1, s/n 16594, built October 1918 by Kellner et ses Fils, Paris, is in the the collection of the National Museum of the United States Air Force at Wright-Patterson Air Force Base, Ohio. It is painted in the markings of Captain Edward Vernon Rickenbacker’s fighter. (U.S. Air Force)

© 2016, Bryan R. Swopes

23 September 1943

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North American P-51B Mustang in teh full-scale NACA wind tunnel, Langley, Virginia, 23 September 1945. (NASA)
North American Aviation P-51B Mustang fighter in the Full-Scale Tunnel, NACA Langley Memorial Aeronautical Laboratory, Hampton, Virginia, 23 September 1943. (NASA)
Drag test of North American Aviation P-51B-1-NA Mustang 43-12105 in the NACA Full-Scale Tunnel. (NASA)

9 August 1939

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Bell XP-39 Airacobra 38-326 in the NACA Full Scale Wind Tunnel at Langley Field, Virginia, 9 August 1939. The man at the base of the supports shows scale. (NASA)

9 August 1939: After General Henry H. Arnold had ordered that the prototype Bell Aircraft Corporation XP-39 Airacobra be evaluated in the National Advisory Committee for Aeronautics (NACA) Full-Scale Tunnel at the Langley Memorial Aeronautics Laboratory, Langley Field, Virginia, it was flown there from Wright Field. It was hoped that aerodynamic improvements would allow the prototype to exceed 400 miles per hour (644 kilometers per hour).

NACA engineers placed the full-size airplane inside the large wind tunnel for testing. A number of specific areas for aerodynamic improvement were found. After those changes were made by Bell, the XP-39’s top speed had improved by 16%.

Bell XP-39 Airacobra 38-326 in the NACA Langley Memorial Aeronautical Laboratory Full-Scale Wind Tunnel, Langley Field, Virginia, 9 August 1939. The fuselage has had all protrusions removed. Right profile. (National Aeronautics and Space Administration NACA 18423)

The Bell XP-39 Airacobra was a single-place, single-engine prototype fighter with a low wing and retractable tricycle landing gears. The airplane was primarily built of aluminum, though control surfaces were fabric covered.

As originally built, the XP-39 was 28 feet, 8 inches (8.738 meters) long with a wingspan of 35 feet, 10 inches (10.922 meters). The prototype had an empty weight of 3,995 pounds (1,812 kilograms) and gross weight of 5,550 pounds (2,517 kilograms). Changes recommended by NACA resulted in a recontoured canopy, lengthened the airplane to 29 feet, 9 inches (9.068 meters) and reduced the wing span to 34 feet, 0 inches (10.362 meters). Its empty weight increased to 4,530 pounds (2,055 kilograms) and gross weight to 5,834 pounds (2,646 kilograms).

Bell XP-39 in the NACA wind tunnel at Langley Field. (NASA)
Bell XP-39 Airacobra 38-326 in the NACA wind tunnel at Langley Field. The man at the base of the supports shows scale. (NASA)

The XP-39 was unarmed, but it had been designed around the American Armament Corporation T9 37 mm autocannon, later designated Gun, Automatic, 37 mm, M4 (Aircraft). The cannon and ammunition were in the forward fuselage, above the engine driveshaft. The gun fired through the reduction gear box and propeller hub.

The XP-39 was originally powered by a liquid-cooled, turbosupercharged and supercharged 1,710.597-cubic-inch-displacement (28.032 liter) Allison Engineering Co. V-1710-E2 (V-1710-17), a single overhead cam (SOHC) 60° V-12 engine with a compression ratio of 6.65:1. The V-1710-17 had a Maximum Continuous Power rating of 1,000 horsepower at 2,600 r.p.m. at 25,000 feet (7,620 meters), and Takeoff/Military Power rating of 1,150 horsepower at 3,000 r.p.m. at 25,000 feet, burning 91 octane gasoline. The engine was installed in an unusual configuration behind the cockpit, with a two-piece drive shaft passing under the cockpit and turning the three-bladed Curtiss Electric constant-speed propeller through a remotely-mounted 1.8:1 gear reduction gear box. The V-1710-17 was 16 feet, 1.79 inches (4.922 meters) long, including the drive shaft and remote gear box. It was 2 feet, 11.45 inches (0.900 meters) high, 2 feet, 5.28 inches (0.744 meters) wide and weighed 1,350 pounds (612 kilograms).

Bell XP-39B prototype, s/n 38-326, at Bell Aircraft Co., Buffalo, New York

Army Air Corps strategy changed the role of the P-39 from a high-altitude interceptor to a low-altitude tactical strike fighter. The original turbocharged V-1710-17 was replaced with a V-1710-37 (V-1710-E5) engine. The turbosupercharger had been removed, which reduced the airplane’s power at altitudes above 15,000 feet (4,572 meters). The V-1710-37 had a maximum power of 1,090 horsepower at 3,000 r.p.m. at 13,300 feet (4,054 meters). With the NACA-recommended aerodynamic changes and the new engine, the prototype Airacobra was redesignated XP-39B.

A Bell P-39 Airacobra fires all of its guns at night. (U.S. Air Force)

© 2018, Bryan R. Swopes