Airbus has entered into an agreement with New Zealand’s Ministry of Business, Innovation and Employment (MBIE) to develop capability in the country’s emerging unmanned aircraft (UA) and space data technology sectors.
The latest engine developer to go this route is Evendale-Ohio-based GE Aviation with the decision to implement Dassault Systèmes’ 3DEXPEREINCE platform – a collaborative digital environment where engineers conduct and manage product design, analyses, and manufacturing data.
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.
Under the OFFSET program, BBN Technologies (a subsidiary of Raytheon) is developing direct and control solutions for swarms of small, autonomous air, and ground vehicles.
This week, Pratt & Whitney, a division of United Technologies Corp. (UTC), announced the establishment of GatorWorks, a newly formed prototyping arm that will focus on the rapid and agile development of dependable, lower cost military engines.
Girish Parvate-Patil, works for Caterpillar Inc. as an Engineering Team Leader on marine propulsion systems. He is accountable for overall leadership and direction on engineering-related activities of marine products with respect to supply chain, design, documentation, time, and cost.
Standards development teams at SAE International in Warrendale, Pa., have issued 11 new technical documents and revised or reaffirmed another 54 technical reports focused on mobility engineering across the aerospace, automotive, and commercial transportation communities. The new documents, issued throughout June 2018, cover a variety of technical subject areas, including: diagnostic link connector security, mitigation strategies against illumination effects, data dictionary for quantities used in cyber physical exams, requirements for production of metal powder feedstock for use in additive manufacturing of aerospace parts, and laser powder bed fusion process.
Jun 13, 2018 - The Aerospace Material Specification committee on Additive Manufacturing (AMS-AM) at SAE International in Warrendale, Pennsylvania, has released its first suite of Aerospace Material Specifications (AMS) additive manufacturing materials and process specifications. The new aerospace technical standards, now available from SAE, support the certification of critical aircraft and spacecraft parts, providing both a framework to protect the integrity of material property data and traceability within the aerospace supply chain.
The 3D printing materials market will experience high double-digit growth in the aerospace industry through 2024, as manufacturers of aircraft and spacecraft vehicles and components increasingly adopt and reap the benefits of additive manufacturing, market analysts at Frost & Sullivan in Mountain View, California, predict.
Aerospace systems, subsystems, and components must continue to operate as intended when exposed to fire, rather than going up in flames and ceasing to work altogether. Fire and flammability testing is an all-important prerequisite to airworthiness, and the focus of a new technical standards committee that SAE International in Warrendale, Pennsylvania, is forming in response to a request from Federal Aviation Administration (FAA) officials in Washington.
Nissan elevates its innovative variable-compression engine to potential large-volume use with its availability in the all-new, sixth-generation 2019 Altima.
Last week, Aurora Flight Sciences’s Autonomous Aerial Cargo Utility System (AACUS) achieved a major operational milestone when it successfully delivered cargo to US Marines in the Integrated Training Exercise at the Marine Corps Air Ground Combat Center Twentynine Palms in California.
Even at the early stages of this new era of urban air mobility, there is already a scramble amongst well-known aerospace giants, as well as start-ups, to develop and evaluate the civil VTOL market. And this all starts with air-taxi concepts.
NASA officials and engineers are prepping to fly the agency’s F/A-18 research aircraft over Galveston, Texas, using a “quiet thump” technique designed to reduce loud sonic booms typically associated with supersonic flight. This week’s test flight sets off a series of quiet supersonic research flights off the coast of Texas to test ways to measure supersonic aircraft sound levels and the community’s response to the supersonic acoustic experience.
In April, NASA took another major step toward reintroducing supersonic flight with an award to Lockheed Martin Aeronautics Company to design, build, and test a supersonic aircraft to reduce sonic boom.
US Army officials and engineers continue work to modernize the defense organization’s fleet of Sikorsky UH-60 Black Hawk helicopter with a more modern digital cockpit, conducting a Limited User Test with two prototype aircraft at Redstone Arsenal, Ala. They selected for a Limited User Evaluation (LUE) a Crew Mission Station (CMS) aligned with The Open Group Future Airborne Capability Environment (FACE) technical standard that combines Core Avionics & Industrial Inc.’s (CoreAVI’s) compositor and graphics suite, Avalex smart display, Intel hardware, Wind River operating system, and Presagis server.
Aerospace engineers at NASA Langley Research Center in Hampton, Virginia, working on the NASA X-59 Quiet SuperSonic Technology (QueSST) aircraft in collaboration with Lockheed Martin engineers sought a safety-critical compute application programming interface (API) that supports safety certifications and powerful graphics and compute capabilities. They chose the VkCore SC safety-critical Vulkan driver from Core Avionics & Industrial Inc. (CoreAVI) in Tampa, Fla., for deployment into the X-59 in concert with the VxWorks 7 real-time operating system (RTOS) from Wind River, a provider of embedded software for intelligent connected systems and part of Intel Corp., in Alameda, Calif.
The Terma 3D-audio system will enhance pilot situational awareness by supplementing the A-10C cockpit control panel visual warning system with audible directional signals from within the pilot’s helmet. The natural or spatially separately audio signals will be similar to what a human would hear when not wearing a conventional headset.
As the third strongest storm in the U.S. was striking the East Coast, Airbus Aerial technology was providing around-the-clock support analyzing the impact and aftermath of Hurricane Michael. Airbus Aerial uses a unique combination of satellites, manned aircraft and rotorcraft, and unmanned aircraft systems (UAS) together with data analytics technology and an artificial intelligence (AI), or machine learning, platform to help organizations supporting recovery efforts better understand and react to the storm as it rolled across the southeastern U.S. into the Gulf of Mexico.