Every vehicle powered by Ultium batteries incorporates efficiency-enhancing energy recovery system based on heat-pump technology covered by 11 patents.
Quality management professionals across the global aerospace and defense community are convening for one hour – Wednesday, October 27th, starting at 10 am Pacific Daylight Time (PDT) – to discuss the AS9100 international standard. Register to take part in the free AeroTech webinar, hosted by SAE International and Tektronix, designed to help manufacturers, contractors, and subcontractors throughout the global aviation, space, and defense supply chain keep pace with and meet the requirements of AS9100 international quality management system standard.
While the pandemic continues, aerospace companies are rising to embrace new and emerging challenges at a time when there’s so much innovation. This innovation can be seen in the emergence of urban air mobility (UAM), the rebirth of supersonic flight, the drive towards a “zero emission” aircraft, and the continued use of autonomous drones for delivery, freight, search & rescue, and defense. There are exciting new developments in space as companies are developing products for commercial exploration and space tourism, and new ways to launch satellites. A new generation of engineering is also emerging in the defense sector and its development of not only aircraft, but also ships, tankers, and even flight trainers.
The 60th Maintenance Squadron at Travis Air Force Base is the first field unit in the United States Air Force to produce approved nonstructural aircraft parts using 3D printing – an additive manufacturing technique. The first parts: latrine covers on the Lockheed C-5M Super Galaxy strategic airlifter.
Sciaky, a Chicago-based subsidiary of Phillips Service Industries, Inc. (PSI), will contribute its novel Electron Beam Additive Manufacturing (EBAM) wire-fed metal 3D printing technology to a new traditional/additive hybrid process to manufacturing titanium alloy aircraft components.
At the convergence of 3D-printing and lithium battery technology, Hong Kong researchers develop a promising textile-based, foldable battery that may find its way onto IoT-connected fabrics within automotive, aerospace, and medical industries.
EOS StainlessSteel CX, EOS Aluminium AlF357, EOS Titanium Ti64 Grade 5, and EOS Titanium Ti64 Grade 23 have been tailored to suit a broad array of applications, ranging from automotive, medical, and aerospace applications.
Four of these technologies – smart coatings for corrosion detection and protection, aluminum alloys for high temperature applications, particle contamination mitigation technologies, and thermal and environmental barrier coating systems – are among NASA’s most in-demand technologies and have been applied to mainstream engineering projects.
Battery weight and power density is a major design consideration when it comes to electric and hybrid-electric vehicles. To reduce platform weight for next-generation electric vehicles, Atlanta-based Novelis, Inc. (Novelis) has used direct feedback from industry partners and automotive design engineers to develop the first aluminum sheet battery enclosure.
Orbex, a developer of small satellite (smallsat) launch vehicles based in Forres, Scotland, has unveiled its “Prime” launch vehicle. The rocket utilizes several novel technologies, including the world’s largest metal rocket engine produced as a single piece through additive manufacturing (AM).
Norsk Titanium’s proprietary “Rapid Plasma Deposition” (RPD) additive manufacturing (AM) process is distinguished in the aviation industry for producing complex, titanium structural and safety-critical components for many original equipment manufacturers (OEMs). But today, through a partnership with SAE International, Norsk’s RPD process and material requirement specifications are available to a wider, global base of manufacturers.
Maintainers from the U.S. Air Force 574th Aircraft Maintenance Squadron (AMXS) have installed the first titanium additively manufactured titanium component on an operational Lockheed Martin F-22 Raptor.
Mobility engineers and executives at Bell Helicopter, a Textron Inc. (NYSE:TXT) company, in Fort Worth, Texas, are developing new concepts of mobility to make moving people and products more efficient and effective – and launching urban air mobility (UAM) innovations, including the Bell Nexus air taxi design, at the Consumer Electronics Show (CES) in Las Vegas this week. They envision and are helping to enable a fleet of on-demand, quiet vertical-takeoff-and-landing (VTOL) aircraft capable of safely whisking passengers over traffic and across urban landscapes by the mid-2020s.
Sikorsky, a Lockheed Martin company (NYSE:LMT), in Stratford, Connecticut, and Boeing Defense, Space & Security (NYSE:BA) in Berkeley, Missouri, are introducing the SB>1 DEFIANT helicopter designed to fly with advanced agility and maneuverability at twice the speed and range of current conventional helicopters. Jointly developed for the U.S. Army’s Joint Multi-Role technology demonstrator program, the new rotorcraft design is intended to help inform the next generation of military helicopters as part of the U.S. Army's Future Vertical Lift (FVL) program.
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.