Lockheed Martin Cormorant

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Cydebot (talk | contribs) at 07:58, 8 May 2019 (Robot - Moving category United States experimental aircraft 2000–2009 to Category:2000s United States experimental aircraft per CFD at Wikipedia:Categories for discussion/Log/2019 April 19.). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Artist's depiction of the Cormorant

The Cormorant was a tailsitter project under development at Lockheed Martin's Skunk Works research facility until 2008 when its contract for development was cancelled. It is named after a species of bird.

Development

The U.S. Navy's Template:Sclass-s, feature large, 44-foot-long (13 m), 7-foot-diameter (2.1 m), tubes to launch Trident missiles. Researchers at Skunk Works had the idea of creating a drone aircraft that can be stored in those missile tubes.

DARPA (Defense Advanced Research Projects Agency) provided funding for tests of models and some of the systems on board the Cormorant. The tests were completed by September 2006. After the tests were complete, DARPA was to determine whether it will fund a flying prototype. While achieving goals and capabilities during tests, DARPA cancelled the contract due to budget cuts in FY08.

Design

While in the tube, the aircraft's wings are folded around itself. The Cormorant, while floating to the surface, unfolds its wings and prepares itself for launch. Rockets then assist the aircraft with lifting off from the water's surface.

A normal aircraft would never survive the pressures that are encountered at a launch depth of 150 ft (46 m). The Cormorant was made from titanium, to prevent corrosion, with plastic foam, to resist crushing, taking up empty spaces. The interior of the craft was filled with a pressurized inert gas. To keep the Cormorant watertight, the doors, inlets, and any covers required inflatable seals.

One principal means of defense for a submarine is the ability to remain hidden underwater. Thus having an aircraft lift off near the submarine or come directly back to the submarine after its objective is complete would give away the submarine's position. To combat this, the submarine was to slip away while the Cormorant is floating to the surface. After its objective has been completed, the submarine was to transmit rendezvous coordinates to the Cormorant. A robotic retrieval vehicle was then to fetch the drone after it has landed on the surface of the water.

External links

Retrieved from "https://en.wikipedia.org/w/index.php?title=Lockheed_Martin_Cormorant&oldid=896091972"