North American Aviation

Last updated
North American Aviation
Industry Aerospace
Founded1928;96 years ago (1928)
Founders Clement Melville Keys
DefunctMarch 1967 (March 1967)
Fate Merger
Successor North American Rockwell
Headquarters,
United States of America
Key people
Parent General Motors
(1933–1948)
Divisions

North American Aviation (NAA) was a major American aerospace manufacturer that designed and built several notable aircraft and spacecraft. Its products included the T-6 Texan trainer, the P-51 Mustang fighter, the B-25 Mitchell bomber, the F-86 Sabre jet fighter, the X-15 rocket plane, the XB-70 bomber, the B-1 Lancer, the Apollo command and service module, the second stage of the Saturn V rocket, and the Space Shuttle orbiter.

Contents

Through a series of mergers and sales, North American Aviation became part of North American Rockwell, which later became Rockwell International, and is now part of Boeing.

History

Early years

On December 6, 1928, Clement Melville Keys founded North American as a holding company that bought and sold interests in various airlines and aviation-related companies. However, the Air Mail Act of 1934 forced the breakup of such holding companies. North American became a manufacturing company, run by James H. "Dutch" Kindelberger, who had been recruited from Douglas Aircraft Company. NAA did retain ownership of Eastern Air Lines until 1938. [1]

In 1933, the General Motors Corporation purchased a controlling interest in NAA, and merged it with the General Aviation Manufacturing Corporation, but retained the name North American Aviation. [2] [3]

Kindelberger moved the company's operations from Dundalk, Maryland to Los Angeles, California, which allowed flying year-round, and decided to focus on training aircraft, on the theory that it would be easier than trying to compete with established companies on larger projects. NAA's first planes were the GA-15 observation plane and the GA-16 trainer, followed by the O-47 and BT-9, also called the GA-16. [1]

World War II

P-51D-5-NA Mustang P-51-361.jpg
P-51D-5-NA Mustang

The BC-1 of 1937 was North American's first combat aircraft; it was based on the GA-16. [1] In 1940, like other manufacturers, North American started gearing up for war, opening factories in Columbus, Ohio, Dallas, Texas, and Kansas City, Kansas. [1] North American ranked eleventh among United States corporations in the value of wartime production contracts. [4]

B-25 Mitchell bomber production line at the North American Aviation plant, Inglewood, California, October 1942. The plane's outer wings have yet to be added, which enables the two side-by-side assembly lines to be closer together. The outer wings will be attached outdoors, in the "sunshine" assembly line. North American Aviation plant, Inglewood, CA.jpg
B-25 Mitchell bomber production line at the North American Aviation plant, Inglewood, California, October 1942. The plane's outer wings have yet to be added, which enables the two side-by-side assembly lines to be closer together. The outer wings will be attached outdoors, in the "sunshine" assembly line.
Aircraft workers on lunch break in Inglewood, 1942 Aircraft workers on lunch break 1942.gif
Aircraft workers on lunch break in Inglewood, 1942

North American's follow-on to the BT-9 was the T-6 Texan trainer, of which 17,000 were built, making it the most widely used trainer ever. The twin-engine B-25 Mitchell bomber achieved fame in the Doolittle Raid and was used in all combat theaters of operation. The P-51 Mustang was initially produced for Britain as an alternative to the Curtiss P-40 Warhawk, which North American had declined to produce under licence. [6] [7] The derivative A-36 Mustang was developed as a ground attack aircraft and dive bomber. This was done, in part, to keep the airframe in production as the US Army Air Corps had not yet decided to purchase the type as a fighter.

A suggestion by the RAF that North American switch the P-51's powerplant from its original Allison engine to the Rolls-Royce Merlin engine may have been one of the most significant events in World War II aviation, as it transformed the P-51 into what many consider to be the best American fighter of the war. [1] [8] [9] [10]

Labor troubles became a grave issue in 1941. During the 22 months from August 1939 to June 1941 Stalin and Hitler supported each other as war raged in Europe. In the U.S., local union officials opposed American aid to Britain's war against Germany. They called strikes in war industries that were supplying Lend Lease to Britain. The United Auto Workers (UAW) won the election over the International Association of Machinists and represented all the employees at the North American factory in Inglewood, California. UAW negotiators demanded the starting pay be raised from 50 cents an hour to 75 cents, plus a 10 cents raise for the 11,000 current employees. The national union had made a no-strike pledge but suddenly a wildcat strike by the local on June 5 closed the plant that produced a fourth of the fighters. The UAW national leader Richard Frankensteen flew in but was unable to get the workers to return. So Washington intervened. With the approval of national CIO leadership, President Franklin Roosevelt on June 8 sent in the California national guard to reopen the plant with bayonets. Strikers were told to return immediately or be drafted into the US Army. [11] They sullenly complied. However, when Germany suddenly invaded the USSR on June 22, the Communist activists suddenly became the strongest supporters of war production; they crushed wildcat strikes. [12] [13] [14]

Post-war years

Post-war, North American's employment dropped from a high of 91,000 to 5,000 in 1946. On V-J Day, North American had orders from the U.S. government for 8,000 aircraft. A few months later, that had dropped to 24. [1]

Two years later in 1948, General Motors divested NAA as a public company. Nevertheless, NAA continued with new designs, including the T-28 Trojan trainer and attack aircraft, the F-82 Twin Mustang fighter, B-45 Tornado jet bomber, the FJ Fury fighter, AJ Savage, the revolutionary XB-70 Valkyrie Mach-3 strategic bomber, Shrike Commander, and T-39 Sabreliner business jet.

XB-70 Valkyrie North American XB-70 above runway ECN-792.jpg
XB-70 Valkyrie

The Columbus, Ohio division of North American Aviation was instrumental in the exclusive development and production of the A-5 Vigilante, an advanced high speed attack aircraft that saw significant use as a naval reconnaissance aircraft during the Vietnam War, the OV-10 Bronco, the first aircraft specifically designed for forward air control (FAC), and counter-insurgency (COIN) duties, and the T-2 Buckeye Naval trainer, which would serve from the late 1950s until 2008 and be flown in training by virtually every Naval Aviator and Naval Flight Officer in the US Navy and US Marine Corps for four decades. The Buckeye's name would be an acknowledgment to the state tree of Ohio, as well as the mascot of Ohio State University.

The North American F-86 Sabre started out as a redesigned Fury and achieved fame shooting down MiGs in the Korean War. Over 9,000 F-86s were produced. Its successor, the North American F-100 Super Sabre, was also popular.

Some 6,656 F-86s were produced in the United States, the most produced postwar military aircraft in the West, as well as another 2,500 elsewhere. To accommodate its Sabre production, North American opened facilities in a former Curtiss-Wright plant in Columbus, Ohio. It also moved into a former Consolidated-Vultee Aircraft plant at Downey, California, and in 1948, built a new plant at Downey. By the end of 1952, North American sales topped $315 million. Employment at the Columbus plant grew from 1,600 in 1950 to 18,000 in 1952. [1]

The cancellation of the F-107 and F-108 programs in the late 1950s, as well as the cancellation of the Navaho intercontinental cruise missile program, was a blow to North American from which it never fully recovered.

Nuclear development

Atomics International was a division of North American Aviation which began as the Atomic Energy Research Department at the Downey plant in 1948. In 1955, the department was renamed Atomics International and engaged principally in the early development of nuclear technology and nuclear reactors for both commercial and government applications. Atomics International was responsible for a number of accomplishments relating to nuclear energy: design, construction and operation of the first nuclear reactor in California (a small aqueous homogeneous reactor located at the NAA Downey plant), [15] the first nuclear reactor to produce power for a commercial power grid in the United States (the Sodium Reactor Experiment located at the Santa Susana Field Laboratory) [16] and the first nuclear reactor launched into outer space by the United States (the SNAP-10A). [17] As overall interest in nuclear power declined, Atomics International transitioned to non-nuclear energy-related projects such as coal gasification and gradually ceased designing and testing nuclear reactors. Atomics International was eventually merged with the Rocketdyne division in 1978. [18]

Autonetics began in 1945 at North American's Technical Research Laboratory, a small unit in the Los Angeles Division's engineering department based in Downey, California. The evolution of the Navaho missile program resulted in the establishment of Autonetics as a separate division of North American Aviation in 1955, first located in Downey, later moving to Anaheim, California in 1963. The division was involved in the development of guidance systems for the Minuteman ballistic missile system.

Space program

Apollo spacecraft being prepared for the Apollo 7 mission S68-42513.jpg
Apollo spacecraft being prepared for the Apollo 7 mission

In 1955, the rocket engine operations were spun off into a separate division as Rocketdyne. This division furnished engines for the Redstone, Jupiter, Thor, Delta, and Atlas missiles, and for NASA's Saturn family of launch vehicles.

North American designed and built the airframe for the X-15, a rocket-powered aircraft that first flew in 1959.

In 1959, North American built the first of several Little Joe boosters used to test the launch escape system for the Project Mercury spacecraft. In 1960, the new CEO Lee Atwood decided to focus on the space program, and the company became the prime contractor for the Apollo command and service module, a larger Little Joe II rocket to test Apollo's launch escape system, and the S-II second stage of the Saturn V.

Merger and acquisition

The fatal Apollo 1 fire in January 1967 was initially blamed on the company in the press, although a Congressional Hearing later ruled otherwise.[ citation needed ] In September, it merged with Rockwell-Standard, and the merged company became known as North American Rockwell. [19] [20] [21] During this period the company continued its involvement with the Apollo program, building the Command and Service modules for all eleven missions. Within two years the new company also was studying concepts for the Space Shuttle, and won the orbiter contract in 1972. [22] In 1973, the company changed its name again to Rockwell International and named its aircraft division North American Aircraft Operations. [23]

Space Shuttle orbiter Atlantis landing at Kennedy Space Center Space Shuttle Atlantis landing at KSC following STS-122 (crop).jpg
Space Shuttle orbiter Atlantis landing at Kennedy Space Center

Rockwell International's defense and space divisions (including the North American Aviation divisions Autonetics and Rocketdyne) were sold to Boeing in December 1996. [21] Initially called Boeing North American, these groups were integrated with Boeing's Defense division. Rocketdyne was eventually sold by Boeing to UTC Pratt & Whitney in 2005. UTC later sold Rocketdyne to Aerojet (GenCorp) in 2013.

Products

Aircraft

Model nameFirst flightNumber builtType
North American NA-16 19351,935Single piston engine trainer
North American O-47 1935239Single piston engine observation airplane
North American BT-9 1936149Single piston engine trainer
North American XB-21 19361Prototype twin piston engine medium bomber
North American BC-1 1937270Single piston engine trainer
North American Harvard 19381,463Single piston engine trainer
North American BT-14 1939251Single piston engine trainer
North American T-6 Texan 193915,495Single piston engine trainer
North American SNJ 19393,867Single piston engine trainer
North American P-64 1939/194013Single piston engine fighter
North American NA-35 19401Prototype single piston engine trainer
North American NA-64 Yale 1940230Single piston engine trainer
North American A-27 194010Single piston engine attack airplane
North American B-25 Mitchell 19409,890Twin piston engine medium bomber
North American P-51 Mustang 194015,000+Single piston engine fighter
North American XB-28 19422Prototype twin piston engine medium bomber
North American A-36 1942500Single piston engine attack airplane
North American F-82 Twin Mustang 1945272Twin piston engine escort fighter
North American Navion 19461,109 [lower-alpha 1] Single piston engine civilian airplane
North American FJ-1 Fury 194633Single jet engine naval fighter
North American XSN2J 19472Prototype single piston engine trainer
North American B-45 Tornado 1947143Quad jet engine bomber
North American F-86 Sabre 19479,860Single jet engine fighter
North American AJ Savage 1948143Twin piston engine naval attack airplane
North American T-28 Trojan 19491,948Single piston engine trainer
North American F-86D Sabre 19492,847Single jet engine interceptor fighter
North American YF-93 19502Prototype single jet engine fighter
North American FJ-2 Fury 1951203Single jet engine naval fighter
North American XA2J Super Savage 19521Prototype twin turboprop engine naval attack airplane
North American F-100 Super Sabre 19532,294Single jet engine fighter
North American FJ-3 Fury 1953538Single jet engine naval fighter
North American X-10 195313Experimental twin jet engine uncrewed airplane
North American FJ-4 Fury 1954374Single jet engine naval fighter
North American F-107 19563Prototype single jet engine fighter
North American T-2 Buckeye 1958529Twin jet engine trainer
North American A-5 Vigilante 1958167Twin jet engine naval attack airplane
North American Sabreliner 1958800+Twin jet engine business airplane
North American X-15 19593Experimental single rocket engine aircraft
North American XB-70 Valkyrie 19642Prototype six jet engine strategic bomber
North American Rockwell OV-10 Bronco 1965360Twin turboprop engine observation airplane

Crewed spacecraft

Missiles and rockets

Unmanned aerial vehicles

Projects

See also

Related Research Articles

<span class="mw-page-title-main">Rockwell International</span> Defunct American manufacturing conglomerate

Rockwell International was a major American manufacturing conglomerate involved in aircraft, the space industry, defense and commercial electronics, components in the automotive industry, printing presses, avionics and industrial products. At its peak, Rockwell International was No. 27 on the Fortune 500 list, with assets of over $8 billion, sales of $27 billion and 115,000 employees.

<span class="mw-page-title-main">Strategic bomber</span> Type of military aircraft

A strategic bomber is a medium- to long-range penetration bomber aircraft designed to drop large amounts of air-to-ground weaponry onto a distant target for the purposes of debilitating the enemy's capacity to wage war. Unlike tactical bombers, penetrators, fighter-bombers, and attack aircraft, which are used in air interdiction operations to attack enemy combatants and military equipment, strategic bombers are designed to fly into enemy territory to destroy strategic targets. In addition to strategic bombing, strategic bombers can be used for tactical missions. There are currently only three countries that operate strategic bombers: the United States, Russia and China.

<span class="mw-page-title-main">Convair</span> 1943–1996 American aerospace manufacturer

Convair, previously Consolidated Vultee, was an American aircraft-manufacturing company that later expanded into rockets and spacecraft. The company was formed in 1943 by the merger of Consolidated Aircraft and Vultee Aircraft. In 1953, it was purchased by General Dynamics, and operated as their Convair Division for most of its corporate history.

<span class="mw-page-title-main">Rocketdyne</span> American rocket engine design and production company

Rocketdyne is an American rocket engine design and production company headquartered in Canoga Park, in the western San Fernando Valley of suburban Los Angeles, in southern California.

<span class="mw-page-title-main">Collier Trophy</span> Annual aviation award administered by the US National Aeronautical Association

The Robert J. Collier Trophy is awarded annually for the greatest achievement in aeronautics or astronautics in America, with respect to improving the performance, efficiency, and safety of air or space vehicles, the value of which has been thoroughly demonstrated by actual use during the preceding year.

<span class="mw-page-title-main">Heavy bomber</span> Bomber aircraft of the largest size and load carrying capacity

Heavy bombers are bomber aircraft capable of delivering the largest payload of air-to-ground weaponry and longest range of their era. Archetypal heavy bombers have therefore usually been among the largest and most powerful military aircraft at any point in time. In the second half of the 20th century, heavy bombers were largely superseded by strategic bombers, which were often even larger in size, had much longer ranges and were capable of delivering nuclear bombs.

<span class="mw-page-title-main">North American A-5 Vigilante</span> Cold War-era U.S. carrier-based supersonic bomber

The North American A-5 Vigilante is an American carrier-based supersonic bomber designed and built by North American Aviation (NAA) for the United States Navy. Before the 1962 unification of Navy and Air Force designations, it was designated A3J.

<span class="mw-page-title-main">Boeing Defense, Space & Security</span> Division of the Boeing Company that builds military aircraft, weapons and space systems

Boeing Defense, Space & Security (BDS) is a division of The Boeing Company based in Arlington, Virginia, near Washington, D.C. The division builds military airplanes, rotorcraft, and missiles, as well as space systems for both commercial and military customers, including satellites, spacecraft, and rockets.

<span class="mw-page-title-main">North American F-107</span> 1956 prototype fighter aircraft

The North American F-107 is North American Aviation's entry in a United States Air Force tactical fighter-bomber design competition of the 1950s, based on the F-100 Super Sabre. It incorporated many innovations and radical design features, notably the over-fuselage air intakes. The competition was eventually won by the Republic F-105 Thunderchief, and two of the three F-107 prototypes ended their lives as test aircraft. One is on display at the National Museum of the United States Air Force and a second at Pima Air and Space Museum.

The Boeing Satellite Development Center is a major business unit of Boeing Defense, Space & Security. It brought together Boeing satellite operations with that of GM Hughes Electronics' Space and Communications division in El Segundo, California.

<span class="mw-page-title-main">SNAP-10A</span> Experimental nuclear-powered US Air Force satellite

SNAP-10A was a US experimental nuclear powered satellite launched into space in 1965 as part of the SNAPSHOT program. The test marked both the world's first operation of a nuclear reactor in orbit, and the first operation of an ion thruster system in orbit. It is the only fission reactor power system launched into space by the United States. The reactor stopped working after just 43 days due to a non-nuclear electrical component failure. The Systems Nuclear Auxiliary Power Program reactor was specifically developed for satellite use in the 1950s and early 1960s under the supervision of the U.S. Atomic Energy Commission.

<span class="mw-page-title-main">James H. Kindelberger</span>

James Howard "Dutch" Kindelberger was an American aviation pioneer. He led North American Aviation from 1934 until 1960. An extroverted character, Kindelberger was famed for his emphasis on hard work, orderliness and punctuality.

<span class="mw-page-title-main">John Leland Atwood</span>

John Leland Atwood was a prominent American engineer. He worked as Chief Engineer/Executive at North American Aviation for over 35 years, succeeding Dutch Kindelberger as president and CEO. He developed the P-51 Mustang during World War II, the F-100 jet fighter, the X-15 rocket plane, and oversaw the Apollo program.

<span class="mw-page-title-main">Santa Susana Field Laboratory</span> Industrial research and development facilities in California

The Santa Susana Field Laboratory (SSFL), formerly known as Rocketdyne, is a complex of industrial research and development facilities located on a 2,668-acre (1,080 ha) portion of Southern California in an unincorporated area of Ventura County in the Simi Hills between Simi Valley and Los Angeles. The site is located approximately 18 miles (29 km) northwest of Hollywood and approximately 30 miles (48 km) northwest of Downtown Los Angeles. Sage Ranch Park is adjacent on part of the northern boundary and the community of Bell Canyon is along the entire southern boundary.

<span class="mw-page-title-main">Edgar Schmued</span>

Edgar O. "Ed" Schmued was an Austrian/German-American aircraft designer, famed for his design of the iconic North American P-51 Mustang and, later, the F-86 Sabre while at North American Aviation. He later worked on other aircraft designs as an aviation consultant.

<span class="mw-page-title-main">Energy Technology Engineering Center</span>

The Energy Technology Engineering Center (ETEC), was a government-owned, contractor-operated complex of industrial facilities located within the 2,850-acre (11.5 km2) Santa Susana Field Laboratory (SSFL), Ventura County, California. The ETEC specialized in non-nuclear testing of components which were designed to transfer heat from a nuclear reactor using liquid metals instead of water or gas. The center operated from 1966 to 1998. The ETEC site has been closed and is now undergoing building removal and environmental remediation by the U.S. Department of Energy.

<span class="mw-page-title-main">Autonetics</span>

Autonetics was a division of North American Aviation that produced various avionics but is best known for their inertial navigation systems used in submarines and intercontinental ballistic missiles. Its 188-acre facility in Anaheim, California, with 36,000 employees, was the city's largest employer. Through a series of mergers, Autonetics is now part of Boeing.

<span class="mw-page-title-main">Sodium Reactor Experiment</span> Decommissioned nuclear power plant in California

The Sodium Reactor Experiment was a pioneering nuclear power plant built by Atomics International at the Santa Susana Field Laboratory near Simi Valley, California. The reactor operated from 1957 to 1964. On July 12, 1957 the Sodium Reactor Experiment became the first nuclear reactor in California to produce electrical power for a commercial power grid by powering the nearby city of Moorpark. In July 1959, the reactor experienced a partial meltdown when 13 of the reactor's 43 fuel elements partially melted, and a release of radioactive gas into the atmosphere occurred. The reactor was repaired and restarted in September 1960. In February 1964, the Sodium Reactor Experiment was in operation for the last time. Removal of the deactivated reactor was completed in 1981. Technical analyses of the 1959 incident have produced contrasting conclusions regarding the types and quantities of radioactive materials released. Members of the neighboring communities have expressed concerns about the possible impacts on their health and environment from the incident. In August 2009, 50 years after the occurrence, the Department of Energy hosted a community workshop to discuss the 1959 incident.

<span class="mw-page-title-main">Atomics International</span> Defunct US nuclear technology company

Atomics International was a division of the North American Aviation company which engaged principally in the early development of nuclear technology and nuclear reactors for both commercial and government applications. Atomics International was responsible for a number of accomplishments relating to nuclear energy: design, construction and operation of the first nuclear reactor in California (1952), the first nuclear reactor to produce power for a commercial power grid in the United States (1957) and the first nuclear reactor launched into outer space by the United States (1965).

Shelby B. Jacobs was an American engineer known for adapting camera technology that shot the iconic film of the separation between the first and second stages of the Saturn V rocket.

References

Footnotes

  1. This includes 83 aircraft built for the military as L-17s.

Notes

  1. 1 2 3 4 5 6 7 Rumerman. Judy. "North American Aviation." United States Centennial of Flight Commission, 2003.
  2. Pound, Arthur. "The Turning Wheel; the Story of General Motors Through Twenty-five Years, 1908-1933" Chapter XXIII - General Motors in Aviation
  3. Wortham, April (14 September 2008). "Planes, trains were also part of GM's grand plan". Automotive News. Archived from the original on 21 November 2022. Retrieved 21 November 2022.
  4. Peck and Scherer 1962, p. 619.
  5. Parker 2013, pp. 2, 78–79.
  6. Herman 2012, p. 88.
  7. Parker 2013, pp. 77, 90–92.
  8. Herman 2012, pp. 88, 203.
  9. Parker 2013, pp. 77–92.
  10. Borth 1945, p. 244.
  11. "HUGE PLANE PLANT HALTED BY STRIKE: 11,000 Are Out at Inglewood, Calif., on C.I.O. Call to Tie-Up North American Company 200 MILLION IN CONTRACTS Violation of Mediation Board Agreement by Union Is Seen -- 75c Minimum Demanded" New York Times 06 June 1941 p: 15.
  12. John Fredrickson, and James Kindelberger, Warbird Factory: North American Aviation in World War II (Zenith Press, 2015) pp 92-104, with photos and newspaper headlines.
  13. John Barnard, American Vanguard: The United Auto Workers During the Reuther Years, 1935–1970 (2004) pp 173-176.
  14. Max M. Kampelman, The Communist Party vs. the CIO: A Study in Power Politics (1957) pp. 25-27.
  15. "Radiation survey of the Downey Facility." Archived 2010-05-27 at the Wayback Machine The Boeing Company, March 1, 2001, p. 7. Retrieved: January 1, 2010.
  16. "California Nuclear Industry." U.S. Energy Information Agency.
  17. Voss, Susan "SNAP Reactor Overview (AFWL-TN-84-14)". U.S. Air Force Weapons Laboratory, Kirtland AFB, New Mexico, August 1984, p. 57.
  18. "Santa Susana Field Laboratory Area IV, Historical Site Assessment." Archived 2010-01-28 at the Wayback Machine Sapere and Boeing, May 2005 p. 2–1. Retrieved: January 1, 2010.
  19. Wragg, David W. (1973). A Dictionary of Aviation (first ed.). Osprey. p. 202. ISBN   9780850451634.
  20. "Rockwell". GlobalSecurity.org. Global Security. Retrieved 2010-08-30. Rockwell and aerospace giant North American Aviation merged in 1967 to form Rockwell North American.
  21. 1 2 "Boeing History Chronology" (PDF). Boeing. December 13, 2020. Retrieved December 13, 2020.
  22. Heppenheimer, T. A. (1998). The Space Shuttle Decision. NASA. pp. 429–432.
  23. "Rockwell International ... Building the Space Shuttle: History, Higher, Faster, Farther: 1970-1986". Boeing Corporation, 2012. Retrieved: April 24, 2012. Archived October 11, 2007, at the Wayback Machine

Bibliography

  • Borth, Christy. Masters of Mass Production. Indianapolis, Indiana: Bobbs-Merrill Co., 1945.
  • Fletcher, David and Doug MacPhail. Harvard! The North American Trainers in Canada. Dundas, Ontario, Canada: DCF Flying Books, 1990. ISBN   0-9693825-0-2.
  • Fredrickson, John, and James Kindelberger. Warbird Factory: North American Aviation in World War II (Zenith Press, 2015)
  • Hagedorn, Dan. North American NA-16/AT-6/SNJ. North Branch, Minnesota: Specialty Press, 1997. ISBN   0-933424-84-1
  • Herman, Arthur. Freedom's Forge: How American Business Produced Victory in World War II. New York: Random House, 2012. ISBN   978-1-4000-6964-4.
  • Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II. Cypress, California: Dana T. Parker Books, 2013. ISBN   978-0-9897906-0-4.
  • Pattillo, Donald M. Pushing the Envelope: The American Aircraft Industry. Ann Arbor, Michigan: The University of Michigan Press, 1998.
  • Peck, Merton J. and Frederic M. Scherer. The Weapons Acquisition Process: An Economic Analysis. Boston: Harvard Business School, 1962.

Further reading

External videos
Nuvola apps kaboodle.svg The North American Story