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Annual conference government policy, regulatory makers, automotive industry neutral forum discuss US government regulation, technology, customer acceptance future vehicle design. industry event safety, emission control, fuel efficiency, automated vehicles.

Contact our Powertrains, Fuels & Lubricants Conference & Exhibition team for more information.

September 17-19, 2019 │ Garden Grove, CA, USA

Request information from our sales team on how you can exhibit or sponsor at the SAE Powertrains, Fuels & Lubricants Conference & Exhibition.

Stratolaunch Systems Corp., founded by Paul G. Allen, in Seattle, Washington, has completed the first flight of the Stratolaunch, the world’s largest all-composite aircraft, with a dual-fuselage design and wingspan greater than the length of an American football field. The Stratolaunch aircraft took flight on April 13 at 0658 PDT from the Mojave Air & Space Port in Mojave, California; achieved a maximum speed of 189 miles per hour; and flew for 2.5 hours over the Mojave Desert at altitudes up to 17,000 feet. 

Future airspace will be filled with unmanned aircraft systems (UAS) or drones, commercial aircraft, helicopters, and more. Several prototypes are currently targeting urban air mobility (UAM) platforms, such as air taxis, and revolutionary aircraft models like next-generation commercial supersonic aircraft. Add to this autonomous swarm technologies, enabling manned-unmanned teaming, and systems for future vertical lift and it’s clear that the technology wave can easily become overwhelming.

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.

Collins Aerospace, a subsidiary of United Technologies Corporation (UTC), has laid out its plans for what is calling “The Grid” – an 25,000-square-foot advanced electric power systems laboratory for designing and testing next-generation, more-electric aircraft technologies for commercial, military, and business aviation.

“We originally thought solar cells would be standard on the airplane’s wings,” says George E. Bye, founder and CEO of Bye Aerospace Bye. “However, with eFlyer’s primary markets being flight training and air taxi services, it makes more sense to make the price of the airplane as reasonable as possible.”

The collaborative development of digital twins will inform additive manufacturing (also known as 3D printing), advanced composites, assembly, and industry 4.0 processes at GKN Aerospace's Global Technology Centre in order to enable the high rate production of aircraft structures.

Software engineers engaged in the construction and development of space launchers and solid and liquid propulsion systems for space travel at AVIO – a global aerospace company with five facilities in Italy, France, and French Guyana – are leveraging the GNAT Pro Assurance and GNATemulator from AdaCore, a provider of software development and verification tools, with headquarters in Paris and New York to develop and expedite testing of safety-critical, on-board software for the Vega C launcher.

The first-ever accident in which a pedestrian was killed by an autonomously piloted vehicle prompts Uber and Toyota to suspend public testing of full-autonomous technology.

September 17-19, 2019 │ Garden Grove, CA, USA

The supplier works closely with off-highway OEMs throughout the development process, testing and demonstrating machines packed with new technology features.

In a major production milestone called “final body join,” Boeing teams connected the major fuselage sections of the first 777X long-range, wide-body airliner in the company’s factory in Everett, Washington.