Composites Use in Advanced Air Mobility
Urban air mobility (UAM), sometimes referred to as advanced air mobility (AAM), is a market that continues to evolve and mature. Aircraft of this genre are designed to perform one of two functions. One is to provide piloted or autonomous air taxi service, transporting people from point A to point B (heliport/airport-to-heliport/airport) over a distance of 25-400 kilometers, intracity or intercity. The second function is to provide autonomous cargo transport in similar environments.
Latest Advanced Air Mobility Articles
VIEW ALLBeta’s Alia eVTOL achieves piloted transition flight
Full transition from VTOL hover, to wing-borne cruise, and back to hover, prepares Beta for next steps in progressing its aircraft platforms.
WatchLilium begins composite battery packs production for Lilium Jet
First units off the battery assembly line in Munich will be used for verification testing ahead of first piloted flight, targeted for end of 2024.
Read MoreEHang secures production certification from CAAC
With production, type and standard airworthiness certification under its belt the AAM company is cleared for mass production of the EH216-S.
Read MoreArcher successfully completes multiple battery pack drop tests for Midnight aircraft
Proprietary battery pack design integrated into a composite battery enclosure passed extreme impact scenario simulations, setting the stage for upcoming for-credit testing with the FAA.
Read MoreStellantis increases strategic shareholding in Archer Aviation
Stellantis signals its continued confidence and partnership in the eVTOL company with the purchase of nearly 8.3 million shares.
Read MoreJoby acquires facility in Ohio, scales up eVTOL aircraft manufacture
Existing facility at Dayton International Airport will enable 500 eVTOLs per year, serving as Joby’s initial manufacturing footprint in the region.
Read MoreKnowledge Centers
In the Automated Composites knowledge center, CGTech brings you vital information about all things automated composites, from the manufacturing processes to the vendors and necessary tools.
LEARN MOREThe composites industry is increasingly recognizing the imperative of sustainability in its operations. As demand for lightweight and durable materials rises across various sectors, such as automotive, aerospace, and construction, there is a growing awareness of the environmental impact associated with traditional composite manufacturing processes.
LEARN MOREThis CW Tech Days event will explore the technologies, materials, and strategies that can help composites manufacturers become more sustainable.
LEARN MORELatest Advanced Air Mobility News And Updates
Airbus debuts CityAirbus NextGen eVTOL prototype
Unveiling coincided with the opening of the new CityAirbus test center in Donauwörth, Germany, ahead of the aircraft’s maiden flight later this year.
Read MoreVolocopter receives green light for VoloCity serial production
Production organization approval (POA) extension gives Volocopter the ability to design and produce the eVTOL aircraft in Bruchsal once it receives type certification.
Read MoreEve Air Mobility brings on Aciturri, Crouzet as eVTOL suppliers
Pilot controls and wing components will be covered by Crouzet and Aciturri, respectively, as first prototype production begins.
Read MoreJoby to launch eVTOL aircraft service in the UAE
The all-electric aircraft company has been given exclusive rights to operate air taxis in Dubai by early 2026 for six years, in addition to other financial and operational support.
Read MoreUAMMI partners with AUVSI to promote advanced materials in AAM
A free, four-part educational series aims to bring awareness of composite materials’ advantages to the uncrewed systems and autonomy community.
Read MoreFAA grants Archer Part 145 certification
The eVTOL aircraft company is now authorized to perform specialized aircraft repair services on crucial aircraft components.
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Read MorePlant tour: Joby Aviation, Marina, Calif., U.S.
As the advanced air mobility market begins to take shape, market leader Joby Aviation works to industrialize composites manufacturing for its first-generation, composites-intensive, all-electric air taxi.
Read MoreComposites opportunities in eVTOLs
As eVTOL OEMs seek to advance program certification, production scale-up and lightweighting, AAM’s penetration into the composites market is moving on an upward trajectory.
Read MoreComposites end markets: Aerospace (2023)
With COVID in the past and passengers flying again, commercial aircraft production is ramping up. The aerocomposites supply chain is busy developing new M&P for an approaching next-generation aircraft program.
Read MoreWe're going to need a lot of propeller blades
As advanced air mobility expands and annual shipsets get into the thousands, the demand for composite propeller blades is expected to skyrocket. What are the implications for the composites supply chain?
Read MoreOverair's Butterfly eVTOL prototype to integrate composites-intensive design
Aiming for first flight tests in the latter half of 2023, Overair’s Butterfly aircraft uses Toray carbon fiber/epoxy prepreg strategically to cut weight on its battery-powered, quiet aircraft.
WatchFAQ: Advanced Air Mobility
What is urban air mobility?
- Urban air mobility (UAM), sometimes called advanced air mobility (AAM), is an emerging aerospace market. These aircraft can be piloted or autonomous, designed for cargo transport or as air taxis for transporting people intercity or intracity.
- Source: Composites end markets: Aerospace
What is an eVTOL?
Electric vertical takeoff and landing (eVTOL) aircraft are some of the first models to be developed for the urban air mobility market.
They are powered by electric propulsion (generally batteries), and are designed to take off and land vertically. These can include propeller-centric, helicopter-style aircraft as well as fixed-wing aircraft.
How are composites being used in urban air mobility?
UAM aircraft are in various stages of development. Most, if not all, are using composites to some extent for aircraft bodies, wings or other components. The focus has been on technologies that are already qualified for commercial aircraft use – such as hand layup and autoclave cure of prepreg carbon fiber/epoxy.
As progress continues, additional composite materials such as thermoplastic composites will likely become more widely used.