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Author : Frank A. Camm
Publisher :
Page : 124 pages
File Size : 40,32 MB
Release : 1993
Category : Aeronautics, Military
ISBN :
Author : United States. Congress. Senate. Committee on Armed Services
Publisher :
Page : 652 pages
File Size : 39,54 MB
Release : 1986
Category :
ISBN :
Author : United States. Congress. House. Committee on Appropriations. Subcommittee on Department of Defense
Publisher :
Page : 776 pages
File Size : 19,65 MB
Release : 1985
Category : United States
ISBN :
Author : United States. Congress. House. Committee on Appropriations
Publisher :
Page : 1286 pages
File Size : 11,67 MB
Release : 1987
Category :
ISBN :
Author : United States. Department of the Air Force
Publisher :
Page : 332 pages
File Size : 49,44 MB
Release : 1985
Category :
ISBN :
Author : Relly Victoria Petrescu
Publisher : BoD – Books on Demand
Page : 218 pages
File Size : 17,87 MB
Release : 2013
Category : Technology & Engineering
ISBN : 3848266393
According to Aulus Gellius, Archytas, the Ancient Greek philosopher, mathematician, astronomer, statesman, and strategist, was reputed to have designed and built, around 400 BC, the first artificial, self-propelled flying device, a bird-shaped model propelled by a jet of what was probably steam, said to have actually flown some 200 metres. This machine, which its inventor called The Pigeon, may have been suspended on a wire or pivot for its flight. The 9th century Muslim Berber inventor, Abbas Ibn Firnas's glider is considered by John Harding to be the first attempt at heavier-than-air flight in aviation history. In 1010 AD an English monk, Eilmer of Malmesbury purportedly piloted a primitive gliding craft from the tower of Malmesbury Abbey. Eilmer was said to have flown over 200 yards (180 m) before landing, breaking both his legs. He later remarked that the only reason he did not fly further was because he forgot to give it a tail, and he was about to add one when his concerned Abbot forbade him any further experiments. Bartolomeu de Gusmão, Brazil and Portugal, an experimenter with early airship designs. In 1709 demonstrated a small airship model before the Portuguese court, but never succeeded with a full-scale model. Pilâtre de Rozier, Paris, France, first trip by a human in a free-flying balloon (the Montgolfière), built by Joseph-Michel and Jacques-Étienne Montgolfier, . 9 km covered in 25 minutes on October 15, 1783. (see Le Globe below for first unmanned flight, 2 months earlier) Professor Jacques Charles and Les Frères Robert, two French brothers, Anne-Jean and Nicolas-Louis, variously shared three milestones of pioneering flight: Le Globe, the first unmanned hydrogen gas balloon flew on 26 August 1783. On 1 December 1783 La Charlière piloted by Jacques Charles and Nicolas-Louis Robert made the first manned hydrogen balloon flight. In 1951, the Lockheed XFV-1 and the Convair XFY tailsitters were both designed around the Allison YT40 turboprop engine drivin
Author :
Publisher :
Page : 702 pages
File Size : 38,62 MB
Release : 1995
Category : Aeronautics
ISBN :
Author : United States. Congress. House. Committee on Appropriations. Subcommittee on Department of Defense
Publisher :
Page : 906 pages
File Size : 44,14 MB
Release : 1987
Category : United States
ISBN :
Author : United States. Congress. House. Committee on Armed Services
Publisher :
Page : 1264 pages
File Size : 41,82 MB
Release : 1988
Category : Government publications
ISBN :
Author : Andrew P. Hunter
Publisher : Rowman & Littlefield
Page : 83 pages
File Size : 48,40 MB
Release : 2021-10-08
Category : Political Science
ISBN : 1538140349
CSIS's The Future of Military Engines looks at the state of the U.S. military engine industrial base and the choices confronting policymakers at the Department of Defense (DoD). The military engine industrial base is closely tied to the industrial base for commercial engines. U.S. engine providers use many of the same facilities and largely the same supply chain for military and commercial engines. The ability to leverage commercial supply chains is critical because supply chain quality underlies the performance advantage of U.S. military engines, both for individual aircraft and military aircraft fleets. International competitors such as Russia and China are seeking to overtake the U.S. in engines. However, the current U.S. advantage is sustainable if it is treated as a national priority. Many military aircraft, especially fighters, require engines with important differences from commercial aircraft. They fly different flight profiles and perform different jobs. These differences mean that while DoD can leverage the commercial engine industrial base, it must also make investments to sustain the industrial base’s unique military components. In the next few years, DoD investment in military engines is projected to decrease significantly, particularly for R&D. This presents a challenge as military-unique engineering skills are highly perishable. Four major policy choices confront DoD as it formulates its investment approach to military engines going forward: 1) Priority, 2) Resources, 3) Business Model, and 4) Competition. The DoD is at an inflection point for engine investment, and the time for choosing on these four key policy questions will come in the next few years.