Dornier Flugzeugwerke

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Dornier-Werke GmbH
Former typePrivately held company
FateAcquired by Fairchild Aircraft in 1996
Successor(s)EADS
Founded1922
Defunct2002
HeadquartersManzell, Friedrichshafen
Key peopleClaudius Dornier
ParentDaimler-Benz (from 1985)
Websitehttp://www.eads.com/
 
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Dornier-Werke GmbH
Former typePrivately held company
FateAcquired by Fairchild Aircraft in 1996
Successor(s)EADS
Founded1922
Defunct2002
HeadquartersManzell, Friedrichshafen
Key peopleClaudius Dornier
ParentDaimler-Benz (from 1985)
Websitehttp://www.eads.com/

Dornier Flugzeugwerke was a German aircraft manufacturer founded in Friedrichshafen in 1914 by Claudius Dornier. Over the course of its long lifespan, the company produced many notable designs for both the civil and military markets.

History[edit]

Originally Dornier Metallbau, Dornier Flugzeugwerke took over Flugzeugbau Friedrichshafen production facilities (Weingarten, Warnemünde, and the former Zeppelin shed at Manzell) when it failed in 1923. Dornier rose to prominence in the 1920s and 1930s as a manufacturer of large, all-metal flying boats, including the 1924 Wal (English: Whale) and the Do X. Dornier also built a series of successful land planes, including the Komet (Comet) and Merkur (Mercury) that were used by Luft Hansa and other European carriers during the 1920s and early 30s. Dornier built its aircraft outside Germany during much of this period, in compliance with the restrictions placed on German aircraft manufacturers by the Treaty of Versailles. Foreign factories licence-building Dornier products included CMASA and Piaggio in Italy, CASA in Spain, Kawasaki in Japan, and Aviolanda in the Netherlands. Once the Nazi government came to power and abandoned the treaty's restrictions, Dornier resumed production in Germany.

Dornier Do 28 D-2 SKYSERVANT
Do 31
Do 32
Dassault-Breguet/Dornier Alpha Jet of the UK defence technology organisation QinetiQ

Dornier's most significant military aircraft design before and during World War II was the Do 17, nicknamed The Flying Pencil. It was developed and first flown in 1934 as a commercial aircraft in competition for a Lufthansa contract. Due to its narrow fuselage (hence its nickname) it was not commercially attractive and was passed over by Lufthansa. Dornier then further developed it as a military aircraft with a prototype bomber first flying in 1935. It was employed by Rebel forces in 1937 during the Spanish Civil War. Production continued within Germany and this versatile two-engined aircraft was developed by the Luftwaffe into multiple combat variations. The medium bomber variant saw much service during the early part of World War II including extensive use in the Battle of Britain. It was later developed into an effective nightfighter to defend Germany from the RAF bomber offensive. Dornier developed the successful Do 217 based on the Do 17; ostensibly looking like its younger sibling, this larger and much heavier bomber was in fact a completely new design. Of note, Dornier also developed the fastest piston-engined fighter of the war, the two-engined Do 335, introduced too late to enter combat service.

Dornier's history of successful flying boats (the "Wal" family) lead to new models that saw service in several armed forces around the world as well as Germany, including the Do 22, Do 18, and Do 24.

After WWII, aircraft production was again forbidden in Germany, and Dornier relocated to Spain and then to Switzerland where the firm provided aeronautical consultancy services until once again returning to Germany in 1954. Post-war, Dornier quickly re-established itself with highly successful small STOL transports such as the Do 27 and Do 28. Additionally, in 1974 it developed the Alpha Jet as part of a joint venture with French aircraft manufacturers Dassault-Breguet. The plane was well received and established itself as the new standard NATO trainer during the 1970s and 80s.

In 1983, Hindustan Aeronautics Limited (HAL) bought a production licence for the Dornier Do 228 and manufactured the aircraft for the Asian market sphere. By 2013 a total of 117 Dornier DO-228 aircraft had been produced by HAL with plans to build 20 more during 2013-14.[1]

In 1985, Dornier became a member of the Daimler-Benz group integrating its aeronautic assets with the parent company. As part of this transaction, Lindauer Dornier GmbH was spun off, creating a separate, family-owned firm, concentrating on textile machinery design and manufacturing. The rest of the company was split into several subsidiaries for defence, satellites, medtech and aircraft.

In 1996, the majority of Dornier Aircraft was acquired by Fairchild Aircraft, forming Fairchild Dornier. This company became insolvent in early 2002. Production of its 328 Jet was acquired by US company Avcraft. Asian interests continued to show interest in its 728 version in August, 2004, but production had not restarted. The other subsidiaries became part of the EADS, the medtech division was sold to an investment company and now bears the name Dornier MedTech.

Dornier Medtech manufactures medical equipment, such as the Dornier S lithotriptor, HM3, Compact Delta to treat kidney stones. Dornier MedTech also manufactures laser devices for a wide range of applications.[2]

Dornier Seaplane Legacy[edit]

The Dornier family have a spin off company and project the Dornier Seastar. It is a turboprop-powered amphibious aircraft built largely of composite materials. This was developed by professor Claudius Dornier of Germany.

Dornier Aircraft Projects[edit]

Letter Designations (before 1933)[edit]

Additional unbuilt projects include 3 different Schneider Trophy racers from 1924, 1928 and 1931 and a large multi-engine seaplane similar to the Do X with engines buried in the wings.

1933-1945[edit]

1945-Present[edit]

Dornier Automobile Projects[edit]

Dornier Delta

Dornier Faint Object Camera[edit]

NASA astronauts of Space Shuttle mission STS-109 remove FOC during an EVA

Dornier GmbH built the Faint Object Camera for the Hubble Space Telescope, which was used from 1990 to 2002. The ESA funded the unit, which actually consists of two complete and independent camera systems designed to provide extremely high resolution, exceeding 0.05 arcseconds. It is designed to view very faint UV light from 115 to 650 nanometers in wavelength.[3] It was the last original instrument on the Hubble when it was replaced by the Advanced Camera for Surveys in 2002.

Missile Projects[edit]

Spacecraft[edit]


See also[edit]

References[edit]

External links[edit]