The Rapid Aerial Extraction System (RAES) pod is a self-contained device that can attach to an ordnance pylon on any fixed-wing aircraft and enable it to provide vertical lift recovery capability like that of a helicopter.
Lockheed Martin successfully flight tested the AGM-183A Air-Launched Rapid Response Weapon (ARRW) on a U.S. Air Force Boeing B-52 Stratofortress. The captive carry flight – announced during the 2019 International Paris Air Show – marks Lockheed Martin’s most recent demonstration of hypersonic technology development.
Designing for safety in automated vehicles has complex requirements – many of which are surrounded with misconceptions. As the leader for training mobility engineers, SAE is providing a two-day classroom seminar: Introduction to Automated Vehicle Safety: Multi-Agent, Functional Safety, and SOTIF.
Although Northrop Grumman officials acknowledged during a post-test press conference that the incident needs to be “looked into,” they stated that the thrust profile could be “very normal, nominal.” A following statement labeled the test a success and announced that OmegA is on track for its first test launch in 2021 and operational service in 2022.
Lockheed Martin Corporation successfully completed development and testing for the heatshield that will protect NASA Jet Propulsion Laboratory Mars 2020 rover during its descent to the Martian surface. After completing the flight hardware structure, Lockheed Martin tested the heatshield’s physical integrity by exposing it to ‘flight-like’ thermal conditions.
In contrast to the stiff, rigid wings found on most commercial aircraft, flexible wing technology is considered essential to next generation, fuel efficient aircraft. However, flexible wings are susceptible to “flutter,” or highly destructive aeroelastic instability. To better understand and mitigate flutter, engineers at NASA’s Armstrong Flight Research Center (AFRC) equipped the X-56 with fiber optic sensing (FOS) technology.
The search for a suitable replacement to hard chrome plating on aerospace components has been a key supply chain priority for aircraft manufacturers. This is because of the documented health risks to workers and the impact on the environment from exposure to hexavalent chromium, a carcinogen that occurs during the chrome plating process and the most toxic form of chromium.
Two new installments in the burgeoning SAE International Podcast Series cast a spotlight on additive manufacturing, which is fueling innovation, greater efficiencies, and the future of mobility engineering. Additive manufacturing continues to advance and transform mobility engineering, as aerospace and automotive firms increasingly adopt and invest in 3D printing technologies, which are becoming more capable and cost-effective.
Officials at an as-yet-unnamed airline in the U.S. is assessing a new hydrophobic coating developed by GKN Aerospace materials science and engineering specialists in Garden Grove, Calif., for cockpit windows on its commercial passenger aircraft. GKN Aerospace debuted the new materials science technology, which Airbus engineers are also flight-trialing on the airframe manufacturer’s flight-test aircraft, during Farnborough International Airshow in Farnborough, England, in July 2018.
To enable the tests required for development work to be performed with maximum efficiency, the Zwick Roell Group (ZwickRoell) – a global supplier of materials testing machines based out of Ulm, Germany – developed a materials testing machine that can be equipped with both a temperature chamber and a high-temperature furnace.
Aerospace manufacturers walk a metaphorical balance beam to continually develop and produce stronger, more efficient materials and components, while addressing all potential failure modes. This is true for safety-critical aircraft components like landing gear systems. Fokker Landing Gear B.V./GKN Aerospace recently equipped its mechanical laboratory with three creep testing machines to verify its manufacturing process control of zinc-plated bolts for aircraft landing gear systems.
A team of engineers from NASA and Dallas-based Jacobs Engineering Group Inc. successfully completed the eighth and final test of the Orion spacecraft Capsule Parachute Assembly System at the U.S. Army Yuma Proving Ground in Yuma, Ariz.
Adhesive joining of structural components will assume an increasingly important role in designing and manufacturing lightweight structures for aerospace platforms. The latest book from SAE International, Adhesive Joining of Structural Components: New Insights and Technologies explores recent advancements in adhesive bonding, used in the manufacture of primary aircraft fuselage and wing structures since 1945.
On June 6, a joint team from ONERA – internationally known as “The French Aerospace Lab” – and Germany’s DLR completed an eight-day course of static ground vibration testing on the new model.
Statistics may point to human fallibility being the cause of almost all road accidents, but the switch to a connected robotic environment must ultimately deliver every nano-second of every day on the promise of a guaranteed near-total safety highway environment. Today’s grudging acceptance by the global public of the inevitability of deaths and injuries on the road will not continue in a driverless environment.