Bashar Assad
Thursday night,
June 21, ordered
his entire Air Force
fleet of fighter
bombers grounded,
for fear that more
pilots might defect after Col. Hasan Merhi al-
Hamadeh flew to Jordan aboard a MiG-21.
domingo, 24 de junio de 2012
Syria grounds fighter-bomber fleet for fear of more defections
Nexcelle completes key C919 nacelle test - Flightglobal
Nexcelle completes key C919 nacelle test - Flightglobal:
Nexcelle completes key C919 nacelle test Flightglobal Nexcelle completes key C919 nacelle test ... nacelle, a key component in the integrated propulsion system (IPS) for the CFM Leap-1C-powered Comac C919. |
Bombardier Races To Keep CSeries On Schedule - Aviation Week
Bombardier Races To Keep CSeries On Schedule - Aviation Week:
 Aviation Week | Bombardier Races To Keep CSeries On Schedule Aviation Week The first new entrant into the traditional Airbus/Boeing narrowbody segment, Bombardier will be followed by the Russian Irkut MS-21 and Chinese Comac C919 ... |
Tianjin Factory Set To Build Additional A320s - Aviation Week
Tianjin Factory Set To Build Additional A320s - Aviation Week:
 Aviation Week | Tianjin Factory Set To Build Additional A320s Aviation Week That know-how could then be applied to the then-imminent Comac C919 program. At least in the early years of the facility, few of its Chinese staff left for Comac, ... |
Strain-detecting, carbon nanotube-infused "strain paint"
Strain-detecting, carbon nanotube-infused "strain paint":
While wireless sensors for detecting the strain placed on bridges and buildings, such as the SenSpot, are easier and cheaper to install than embedded wired networks of sensors, they still need to be in physical contact with the structure being monitored. Researchers at Rice University have now developed a new type of paint, infused with carbon nanotubes, that could make strain detection of materials in buildings, bridges and aircraft possible without actually touching the material. .. Continue Reading Strain-detecting, carbon nanotube-infused "strain paint"
While wireless sensors for detecting the strain placed on bridges and buildings, such as the SenSpot, are easier and cheaper to install than embedded wired networks of sensors, they still need to be in physical contact with the structure being monitored. Researchers at Rice University have now developed a new type of paint, infused with carbon nanotubes, that could make strain detection of materials in buildings, bridges and aircraft possible without actually touching the material. .. Continue Reading Strain-detecting, carbon nanotube-infused "strain paint"