WASHINGTON, April 4. (AP)—Mrs Franklin D. Roosevelt presented to Jacqueline Cochran of New York today the Harmon trophy for the outstanding American aviatrix of 1937.
The trophy is awarded by the Ligue Internationale Des Aviateurs.
Miss Cochran broke the national women’s record for 1000 kilometers and on three occasions established new national records for the 100-kilometer distance in 1937. She also set a world’s record for women over a three-kilometer course.
—Los Angeles Times, Vol. LVII, Tuesday, 5 April 1938, Part I, Page 5, Columns 3–5
On 26 July 1937, Jackie Cochran set a United States Women’s National Speed Record ¹ of 203.895 miles per hour (328.137 kilometers per hour) over a 1,000 kilometer (621.4 mile) course between the Union Air Terminal at Burbank, California, and San Francisco’s Golden Gate Bridge, and return, flying a Beechcraft D17W “Staggerwing,” NX17081, serial number 136.
Beechcraft D17W Staggerwing, NC17081, c/n 136, National Speed Record holder, 203.895 mph (328.137 kph). This airplane is painted “Merrimac Diana Cream” with “Stearman Vermillion” striping outlined in black. (Beech Aircraft Corporation)
On 21 September 1937, Jackie Cochran flew the Seversky Aircraft Corporation SEV-S1, civil registration NR18Y, over a 3 kilometer course at Detroit Wayne County Airport, Romulus, Michigan, averaging 470.40 kilometers per hour (292.29 miles per hour). This was a new Fédération Aéronautique Internationale (FAI) world speed record.²
Jackie Cochran in the cockpit of the Sikorsky Executive, NX18Y. Note the passenger windows below and behind the cockpit. (Unattributed)
This was the first of five Harmon Trophies which were awarded to Jackie Cochran.
¹ A check with the National Aeronautics Association on 25 February 2016 was unable to verify this record. —TDiA
SPAD S.XIII C.1, s/n 16594, built by Kellner et ses Fils, Paris, October 1918. (U.S. Air Force)Sous-Lieutenant René Pierre Marie Dorme, Escadrille No. 3, Aéronautique Militaire.
4 April 1917: Sous-Lieutenant René Pierre Marie Dorme of the Aéronautique Militaire (French Air Service) made the first flight of the famous World War I fighter, the SPAD S.XIII C.1.
Lieutenant Dorme was an ace with 18 confirmed victories. In the next seven weeks, he shot down another five enemy aircraft.
Designed by Société Pour L’Aviation et ses Dérivés Technical Director Louis Béchéreau and manufactured by SPAD as well as eight other companies, this was an improved and slightly larger version of the earlier SPAD S.VII C.1. It used a more powerful Hispano-Suiza 8Ba engine instead of the S.VII’s 8Aa, with an increase of 50 horsepower. (Later versions used 8Be engines.) Armament was increased from a single .303-caliber Vickers machine guns to two.
The SPAD was faster than other airplanes of the time and it had a good rate of climb. Though a product of France, it was used by both the Royal Flying Corps and the U.S. Army Air Service. In France, the airplane type now considered a “fighter” was called a chasseur (“hunter”). The letter “C-” in the SPAD’s designation reflects this. The “-.1” at the ending indicates a single-place aircraft.
SPAD S.XIII C.1 at Air Service Production Center No. 2, Romorantin Aerodrome, France, 1918. (Rudy Arnold Photographic Collection, Smithsonian Institution National Air and Space Museum, XRA-5380)
The SPAD S.XIII C.1 was a single-seat, single-engine, two-bay biplane constructed of a wooden framework with a doped fabric covering. Sheet metal covered the engine and cockpit.
The S.XIII was 20 feet, 4 inches (6.198 meters) long.¹ The upper and lower wings had equal span and chord. The span was 26 feet, 3¾ inches (8.020 meters) and chord, 4 feet, 7-1/8 inches (1.400 meters). The vertical spacing between the wings was 3 feet, 10½ inches (1.181 meters), and the lower wing was staggered 1¼° behind the upper. Interplane struts and wire bracing were used to reinforce the wings. The wings had no sweep or dihedral. The angle of incidence of the upper wing was 1½° and of the lower, 1°. Only the upper wing was equipped with ailerons. Their span was 7 feet, 3½ inches (2.222 meters), and their chord, 1 foot, 7½ inches (0.495 meters). The total wing area was 227 square feet (21.089 square meters).
The horizontal stabilizer had a span of 10 feet, 2 inches (3.099 meters) with a maximum chord of 1 foot, 8¾ inches (0.527 meters). The height of the vertical fin was 2 feet, 7/8-inch (0.876 meters) and it had a maximum length of 3 feet, 11¼ inches (1.200 meters). The rudder was 3 feet, 10-5/8 inches high (1.184 meters) with a maximum chord of 2 feet, 2 inches (0.660 meters).
The SPAD S.XIII C.1 had fixed landing gear with two pneumatic tires. Rubber cords (bungie cords) were used for shock absorption. The wheel track was 4 feet, 10¾ inches (1.492 meters). At the tail was a fixed skid.
The airplane had an empty weight of 1,464 pounds (664 kilograms), and gross weight 2,036 pounds (924 kilograms).
Initial production SPAD XIIIs were powered by a water-cooled 11.762 liter (717.769-cubic-inch displacement), La Société Hispano-Suiza 8Ba single overhead cam (SOHC) left-hand-tractor 90° V-8 engine. It was equipped with two Zenith down-draft carburetors and had a compression ratio of 5.3:1. The 8Ba was rated at 150 cheval vapeur (148 horsepower) at 1,700 r.p.m., and 200 cheval vapeur (197 horsepower) at 2,300 r.p.m. It drove a two-bladed, fixed-pitch, wooden propeller with a diameter of 2.50 meters (8 feet, 2.43 inches) through a 0.585:1 gear reduction. (The 8Be engine had a 0.75:1 reduction gear ratio and used both 2.50 meter and 2.55 meter (8 feet, 4.40 inches) propellers.) The Hispano-Suiza 8Ba was 1.36 meters (4 feet, 5.5 inches) long, 0.86 meters (2 feet, 9.9 inches) wide and 0.90 meters (2 feet, 11.4 inches) high. It weighed 236 kilograms (520 pounds).
The SPAD S.XIII C.1 was developed from the earlier SPAD S.VII C.1. This is Capitaine Georges Guynemer’s SPAD S.VII C.1, N° S 254, “Vieux Charles,” at the Musée de l’Armee. The flowers on the landing gear are a tribute the the fighter ace following his death, 11September 1917. Today, this airplane is in the collection of the Musée de l’Air et de l’Espace at Le Bourget Airport.
The airplane had a main fuel tank behind the engine, with a gravity tank located in the upper wing. The total fuel capacity was 183 pounds (83 kilograms), sufficient for 2 hours, 30 minutes endurance at full throttle at 10,000 feet (3,048 meters), including climb. There was also a 4.5 gallon (17 liters) lubricating oil tank.
The SPAD S.XIII had a maximum speed of 135 miles per hour (218 kilometers per hour) at 6,560 feet (2,000 meters) and a service ceiling of 21,815 feet (6,650 meters).
The chasseur was armed with two fixed, water-cooled, .303-caliber (7.7 mm) Vickers Mk.I machine guns with 400 rounds of ammunition per gun, synchronized to fire forward through the propeller arc. Because of the cold temperatures at altitude, the guns’ water jackets were not filled, thereby saving considerable weight.
The SPAD S.XIII was produced by nine manufacturers. 8,472 were built. Only four are still in existence.
Instrument panel of a SPAD S.XIII C.1 at NMUSAF. (U.S. Air Force)
The airplane in the photograph above is SPAD S.XIII C.1, serial number 16594. It was built in October 1918 by Kellner et ses Fils, an automobile manufacturer in Paris, France. It did not see combat, but was shipped to the United States at the end of the War and was stationed at San Diego, California. The airplane was restored by the National Museum of the United States Air Force and is painted in the markings of the airplane flown by Captain Edward V. Rickenbacker, commanding officer of the 94th Aero Squadron, American Expeditionary Forces. It is on display at NMUSAF, Wright-Patterson Air Force Base, Ohio.
First Lieutenant Edward V. Rickenbacker with his SPAD XIII C.1, 94th Aero Squadron, American Expeditionary Forces, France, 1918. (U.S. Air Force)Captain Arthur Raymond Brooks, U.S. Army Signal Corps
The airplane in the photograph below is another SPAD S.XIII C.1, serial number 7689, also built by Kellner et ses Fils, in August 1918. It was sent to the 22nd Aero Squadron at Colombey-les-Belles and assigned to Lieutenant Arthur Raymond Brooks. Brooks’ fiancée attended Smith College and he named the SPAD Smith IV in her honor. With this airplane, Lieutenant Brooks shot down six enemy airplanes. Other pilots also flew it to shoot down another five.
After the War came to an end, 7689 was shipped to the United States and used in a Liberty Bond fund-raising tour. In December 1919, the United States Army gave the fighter to the Smithsonian Institution. It was restored at the Paul E. Garber Center, 1984–1986, and remains in the collection of the National Air and Space Museum.
SPAD S.XIII C.1 serial number 7689, Smith IV, after restoration at the Paul E. Garber Center, Smithsonian Institution National Air and Space Museum. (NASM)
René Dorme fought 120 aerial engagements, many while flying a SPAD S.VII C.1. He is officially credited with 22 victories, and may have shot down as many as 59 enemy aircraft. His personal airplane was marked with a green Cross of Lorraine. He was a Chevalier de la légion d’honneur, and had been awarded the Médalle Militaire and the Croix de Guerre with 17 Palms. Dorme was killed in action 25 May 1917 when his SPAD VII was shot down by Oberleutnant Heinrich Kroll of Jasta 9 at Fort de la Pompelle near Reims.
Sous-lieutenant René Pierre Marie Dorme, Aéronautique Militaire, Chevalier de la légion d’honneur.
¹ Dimensions, weights, capacities and performance data cited above refer to SPAD S.XIII C.1 serial number 17956 (A.S. 94101), which was tested at McCook Field, Dayton, Ohio (Project Number P-154), 1921.
A McDonnell F4H-1 Phantom II, Bu. No. 148423, climbing during Project High Jump. (U.S. Navy)
3 April 1962: At NAS Point Mugu, Ventura County, California, a future NASA astronaut, United States Navy test pilot Commander John Watts Young, set a new Fédération Aéronautique Internationale (FAI) time-to-altitude world record by flying his McDonnell Aircraft Corporation F4H-1 Phantom II, Bureau of Aeronautics serial number (Bu. No.) 149449,¹ from the surface to 25,000 meters (82,021 feet) in 3 minutes, 50.44 seconds.²
Commander John W. Young, United States Navy, with a McDonnell F4H-1 Phantom II. (U.S. Navy)
John Young had set another FAI record on 21 February, reaching a height of 3,000 meters (9,843 feet) in 34.523 seconds with the Phantom II at NAS Brunswick, Maine.³ Young set a total of 21 FAI records. Three remain current.
This was one of a series of time-to-altitude record flights flown at with F4H-1 149449 during February, March and April 1962. Flown by four other pilots, 149449 also set time-to-altitude records for 3,000, 6,000, 9,000, 12,000, 15,000, and 20,000 meters.
A bridle restrained the F4H-1 on the runway while its engines were run up to full afterburner. The pilot fired an explosive bolt to release the airplane for flight.⁴
Point Mugu’s Runway 21 ends on the edge of the Pacific Ocean and the elevation is 9 feet (2.7 meters) above Sea Level. The restricted airspace of the Pacific Missile Test Range assured that these flights could be conducted safely and without interfering with civilian air traffic. The U.S. Air Force had used the same runway when it conducted time-to-altitude record flights with a Lockheed F-104A Starfighter in 1958.
Project High Jump McDonnell F4H-1 Phantom II. (U.S. Navy)
John Young was a test pilot assigned to the Naval Air Test Center, NAS Patuxent River, Maryland, where he was a project officer for F4H and F8U armament systems. He was selected as a NASA astronaut and served as Pilot of Gemini III; backup pilot, Gemini IV; Commander for Gemini 10; Command Module Pilot on Apollo 10; back-up commander for Apollo 13; Commander, Apollo 16; and back-up commander for Apollo 17. Later, he was Commander of the maiden flight of the space shuttle Columbia STS-1 and again for STS-9. He was in line to command STS-61J.
Record-setting McDonnell F-4B-11-MC Phantom II, Bu. No. 149449, VF-151, USS Coral Sea (CV-43). (U.S. Navy)
McDonnell F4H-1 Phantom II Bu. No. 149449, redesignated F-4B-11-MC, served with VF-96 aboard the aircraft carrier USS Ranger (CV-61), VF-151 aboard USS Coral Sea (CV-43) and was later assigned to Marine Air Group 13, VMFA-323, “Death Rattlers,” based at Chu Lai Air Base, Republic of South Vietnam.
On 2 August 1968, 149449 was hit by small arms fire near An Hoa, 17 miles southeast of Da Nang. On returning the damaged airplane to Chu Lai, the Phantom’s landing gear could not be extended. The pilot, Major DanieI I. Carroll, USMC, and Weapons System Officer, First Lieutenant R.C. Brown, USMC, ejected one mile (1.6 kilometers) off the coast. Both were rescued by a U.S. Army helicopter.
The record-setting Phantom II was lost in the South China Sea.
Another F4H-1 Phantom II flown during Project High Jump was Bu. No. 148423, shown in the photograph above (top). In 1971, -423 was withdrawn from service and used as a ground trainer at the Naval Air Technical Training Center (NATTC) at Millington, Tennessee. It was later converted to the QF-4B drone configuration. It was reported preserved at the Herlong Airport, near Jacksonville, Florida. In 2002, part of the airplane was used as a cockpit display at the USS Hornet (CV-12) Museum, Alameda, California. In 2004, the nose section was transferred to the Pacific Coast Air Museum, Santa Rosa, California.⁵
¹ USN McDonnell Douglas F-4 Phantom II, by Peter E. Davies, Osprey Publishing, Oxford, United Kingdom, 2016, Introduction, Page 10
² FAI Record File Number 9092
³ FAI Record File Number 9078
⁴ Engineering the F-4 Phantom II: Parts into Systems, by Glenn E. Bugos, Naval Institute Press, Annapolis, Maryland, 1996, Chapter 5, Page 105
⁵ Warplane Survivors USA: Florida Warplanes, by Harold A. Skaarup, https://www.silverhawkauthor.com/post/warplane-survivors-usa-florida-warplanes-book
Bell Model 47, s/n 1, NX41962. This helicopter would be re-registered NC1H. (Niagara Aerospace Museum)
3 April 1946: The first commercially certified helicopter, Bell Model 47 NC1H, serial number 1, was being flown by two Bell Aircraft Corporation test pilots, Edward F. Hensley and Gerald Arthur (“Jay”) Demming. Hensley was teaching Demming to fly the aircraft.
Demming was hovering the helicopter about 15 feet (4½ meters) above the ground and began to transition to forward flight. Checking the instruments, he noticed that the engine was turning 3,100 r.p.m., the upper limit of its operating range. Intending to reduce the r.p.m., he moved the collective pitch control lever.
When the collective pitch lever is raised (controlled by the helicopter pilot’s left hand), it causes the angle of attack of all main rotor blades to increase, “collectively.” While this increases the amount of lift being produced, it also increases drag, which slows the rotation of both the main rotor and engine. Lowering the collective lever has the opposite effect. Drag is reduced, and the rotor and engine accelerate.
In an early helicopter like the Model 47, the pilot must manually correlate engine r.p.m. with main rotor collective pitch and tail rotor collective pitch. A twist-grip throttle is on the forward end of the collective lever for this purpose. Throttle adjustments are continuous during helicopter flight, as any change in the other controls will effect engine speed.
Bell test pilot Edward F. Hensley at the controls of an early version of the Bell 47. Hensley’s right hand is on the “cyclic.” This photograph provides a good view of the the helicopter’s flight control system. The three vertical rods behind the pilot control the stationary swash plate, which is mounted at the top of the cylindrical transmission. The center rod controls collective pitch, and the outer two, cyclic pitch. Above the rotating swash plate, two angled pitch control rods (on either side of the main rotor mast) lead to the stabilizer bar. Smaller rods continue to two hydraulic dampers, and then to the pitch horns on the main rotor blade grips. (Niagara Aerospace Museum)Dual tachometer from a Bell 47G-3B1. Engine r.p.m. is indicated on the outer scale, while rotor r.p.m. is shown on the inner scale.
As Demming was new to the helicopter, he had not yet learned to make these power adjustments automatically. Rather than raise the collective to slow the engine r.p.m., he inadvertently lowered it. This caused a sudden decrease in the rotor blades’ angle of attack and a corresponding decrease in drag. The load on the engine was decreased, but the throttle setting was not reduced accordingly. The engine accelerated to 3,400 r.p.m., which would have driven the main rotor to 378 r.p.m., 5% beyond its maximum operating r.p.m. (“red line”).
Recognizing his error, Demming raised the collective to control the engine/rotor r.p.m.
There was a violent shock. NC1H fell to the ground from a height Demming estimated at 30–50 feet (9–15 meters).
The wreck of the first civil-certified helicopter, Bell Model 47, serial number 1, NC1H, at Niagara Falls Airport, 3 April 1946. The main rotor blades are not seen in this photograph.(Niagara Aerospace Museum)
After the impact, both Demming and Hensley were unconscious. Demming soon regained consciousness and got out of the cockpit, while airport fire/rescue personnel looked after Hensley.
Hensley had fractured three vertebra and was initially not expected to survive his injuries, but he did eventually recover.
NC1H, the first civil-certified helicopter, was damaged beyond repair.
NC1H (Niagara Aerospace Museum)
In photographs of the damaged helicopter, the main rotor yoke, blade grips, pitch horns, drag braces and the main rotor blades are nowhere to be seen. The gimbal ring, static stop, main rotor retaining nut and stabilizer bar are still in place. This suggests that the hub failed and the associated parts were thrown outward, away from the axis of rotation.
With nothing to support it in flight, the rest of the helicopter dropped to the ground like a stone from your hand.
NC1H (originally registered NX41962) had first flown on 8 December 1945, and had received the very first civil helicopter Type Certificate, H-1, on 8 March 1946.
At the time of the accident, NC1H had 75 hours, 42 minutes, total time (TTAF). Its engine had accumulated 136 hours, 50 minutes, since being manufactured (TTSN).
After the crash, NC1H’s registration number was reassigned to s/n 11.
NC1H (Niagara Aerospace Museum)
The Bell 47 series was constructed of a welded tubular steel airframe with a sheet metal cockpit and a characteristic plexiglas bubble canopy. In the original configuration, it had a four-point wheeled landing gear, but this was soon replaced with a tubular skid arrangement. It was a two-place aircraft with dual flight controls.
The first Bell Model 47 had an overall length (with rotors turning) of 39 feet, 7½ inches (12.078 meters). The main rotor diameter was 33 feet, 7 inches (10.236 meters). The length of the fuselage, from the front of the canopy to the trailing edge of the tail rotor disc, was 29 feet, 3½ inches (8.928 meters). The helicopter’s height, to the top of the main rotor mast, was 9 feet, 2–7/16 inches (2.805 meters).
NC1H had an empty weight of 1,393 pounds (632 kilograms). Its gross weight was 2,100 pounds (953 kilograms).
The Bell 47’s main rotor is a two-bladed, under-slung, semi-rigid assembly that would be a characteristic of helicopters built by Bell for decades. The blades were constructed of laminated wood. A stabilizer bar was placed below the hub and linked to the flight controls through hydraulic dampers. This made for a very stable aircraft. The main rotor turns counter-clockwise, as seen from above. (The advancing blade is on the right.) Its normal operating range is 322–360 r.p.m. (294–360 r.p.m. in autorotation).
The tail rotor is positioned on the right side of the tail boom in a tractor configuration. It has a diameter of 5 feet, 5 inches (1.676 meters) and rotates counter-clockwise as seen from the helicopter’s left. (The advancing blade is above the axis of rotation.) The tail rotor blades were also made of wood.
Power was supplied by an air-cooled, normally-aspirated, 333.991-cubic-inch-displacement (5.473 liter) Franklin Engine Company 6V4-178-B3 vertically-opposed six cylinder engine, serial number 17008, which was rated at 178 horsepower at 3,000 r.p.m. Engine torque was sent through a centrifugal clutch to a transmission. The mast (the main rotor drive shaft) was driven through a two-stage planetary gear reduction system with a ratio of 9:1. The transmission also drove the tail rotor drive shaft, and through a vee-belt/pulley system, a large fan to provide cooling air for the engine.
The new helicopter had a cruise speed of 75 miles per hour (121 kilometers per hour) and a maximum speed (VNE) of 80 miles per hour (129 kilometers per hour). NC1H had a service ceiling of 11,400 feet (3,475 meters).
The Bell 47 was produced at the plant in New York, and later at Fort Worth, Texas. It was steadily improved and remained in production until 1974. In military service the Model 47 was designated H-13 Sioux, (Army and Air Force), HTL (Navy) and HUG (Coast Guard). The helicopter was also built under license by Agusta, Kawasaki and Westland. More than 7,000 were built worldwide and it is believed that about 10% of those remain in service.
In 2010, the type certificates for all Bell 47 models was transferred to Scott’s Helicopter Service, Le Sueur, Minnesota, which continues to manufacture parts and complete helicopters.
Gerald A. (“Jay”) Demming, Bell Aircraft Corporation test pilot. (Niagara Aerospace Museum)
Gerald Arthur (“Jay”) Demming was born 4 July 1918 at Niagara Falls, New York. He was the son of Arthur L. Demming, Jr., a factory foreman, and Marie I. Demming. He attended La Salle High School, graduating in 1936, then the University of Illinois at Urbana Champaign.
While at college, Demming entered the Civilian Pilot Training Program. He became a multi-engine and instrument flight instructor at Dominion Skyways Ltd., a flight school at Malton, Ontario, Canada. He was next employed as a civilian pilot for the Royal Canadian Air Force.
On 30 May 1942, Jay Demming married Miss Audrey Mary Prowse. They would have two children. They divorced im May 1966 in Brevard County, Florida.
Gerald Arthur Demming died 20 May 1996, at Plant City, Hillsborough, Florida.
Edward Freeland Hensley, Bell Aircraft Corporation test pilot. (LeslieGift)
Edward Freeland Hensley was born 22 November 1910 at Mountain Park, Oklahoma. He was the first of three children of Edward Hensley, owner of a real estate company, and Mamie A. Freeland Hensley. He attended John Brown College at Siloam Springs, Arkansas.
Hensley had brown hair and blue eyes. He was 5 feet, 8 inches tall and weighed 135 pounds.
Hensley married Miss Edith Hyla Collins in Oklahoma City, Oklahoma, 15 August 1931. They would have four children.
In th mid-1930s, Hensley worked for the U.S. Postal Service in Oklahoma City. He was a special deliveries manager.
Hensley was issued a commercial pilot’s license in 1938. By 1940, he was a flight instructor at McConnell Flying Service, Parsons, Kansas. He was next employed as a civilian flight instructor for Brayton Flying Services, inc., at the U.S. Army contract flight school in Cuero Municipal Airport, Cuero, Texas. He then joined Bell Aircraft Corporation as a test pilot.
He later was a test pilot for the Boeing B-47 Stratojet at Wichita, Kansas.
Edward Freeland Hensley died in June 1969 in Wichita.
Test pilot Robert C. Chilton with the North American Aviation prototype NA-73X, NX19998. (North American Aviation, Inc.)
3 April 1941: North American Aviation test pilot Robert Creed Chilton takes his first flight—a one hour familiarization—in the company’s prototype of a new fighter for the Royal Air Force, the NA-73X, NX19998, at Mines Field. (Mines would later become Los Angeles International Airport, LAX.)
The airplane had first been flown by free-lance test pilot Vance Breese, 26 October 1940, and he had flown it several times. North American’s Chief Test Pilot, Paul Baird Balfour, on his first flight in NX19998, ran out of fuel and crash landed in a plowed field 150 yards (137 meters) west of the airfield, 20 November 1940. The prototype had flown just 3 hours, 20 minutes.
The NA-73X was repaired and Bob Chilton was assigned to complete the testing program. The airplane would become the legendary P-51 Mustang, and Chilton would continue to conduct the majority of flight testing on its improvements and modifications.
Test pilot Robert C. Chilton stands on the wing of a North American Aviation P-51B Mustang. (North American Aviation, Inc.)
Robert Creed Chilton was born 6 February 1912 at Eugene, Oregon, the third of five children of Leo Wesley Chilton, a physician, and Edith Gertrude Gray. He attended Boise High School in Idaho, graduating in 1931. Chilton participated in football, track and basketball, and also competed in the state music contest. After high school, Chilton attended the University of Oregon where he was a member of the Sigma Chi fraternity (ΣΧ). He was also a member of the Reserve Officers Training Corps (ROTC).
Bob Chilton enlisted as an Aviation Cadet in the U.S. Army Air Corps, 25 June 1937. He was trained as a fighter pilot at Randolph Field and Kelly Field in Texas, and was commissioned as a Second Lieutenant in 1938. Lieutenant Chilton was assigned to fly the Curtiss P-36 Hawk with the 79th Pursuit Squadron, 20th Pursuit Group, at Barksdale Field, Louisiana. Because of a medical condition, he was released from active duty, 1 April 1939.
At some time prior to 1940, Bob Chilton, married his first wife, Catherine. They lived in Santa Maria, California, where he worked as a pilot at the local airport.
In January 1941, Chilton went to work as a production test pilot for North American Aviation, Inc., Inglewood, California. After just a few months, he was assigned to the NA-73X.
Chilton married his second wife, Betty W. Shoemaker, 15 November 1951.
On 10 April 1952, Bob Chilton returned to active duty with the U.S. Air Force, with the rank of lieutenant colonel. He served as Chief of the Repulic F-84 and F-105 Weapons System Project Office, Air Material Command, at Wright-Patterson Air Force Base, Dayton, Ohio, until 9 March 1957.
From 1958, Chilton was a vice president for Horkey-Moore Associates, an engineering research and development company in Torrance, California, founded by former North American aerodynamacist Edward J. Horkey. In 1961, he followed Horkey to the Space Equipment Corporation, parent company of Thompson Industries and Kerr Products, also located in Torrance. Chilton served as corporate secretary and contracts administrator.
Chilton married his third wife, Wilhelmina E. Redding (Billie E. Johnson) at Los Angeles, 26 July 1964. They divorced in 1972.
In 1965, Bob Chilton returned to North American Aviation as a flight test program manager. He retired in 1977.
Robert Creed Chilton died at Eugene, Oregon, 31 December 1994, at the age of 82 years.
