Divergent Brings Additive Manufacturing to UAS Development

GA-ASI is working with Divergent to apply its DAPS data-driven approach for designing, fabricating and assembling vehicle structures to manufacturing GA-ASI’s line of UAS By Caroline Rees / 17 Feb 2023
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General Atomics Aeronautical Systems, Inc. (GA-ASI) is partnering with Divergent Technologies to support its Additive Manufacturing (AM) applications development efforts and implement a full digital manufacturing process for GA-ASI’s line of UAS. 

Divergent has developed a data-driven approach to design, fabricate and assemble vehicle structures called the Divergent Adaptive Production System (DAPS). GA-ASI is working with Divergent to apply this capability to manufacturing its unmanned aircraft.

“Throughout our 30 years of designing and developing advanced UAS, GA-ASI has been focused on implementing new capabilities into our manufacturing process,” said GA-ASI President David R. Alexander. “We’re working with Divergent to integrate their technology as part of our Additive Design and Manufacturing Center of Excellence strategy, with the goal of optimizing our design and manufacturing processes and providing next generation UAS at the lowest cost.”

In 2022, GA-ASI began a joint development program with Divergent, which led to a stronger strategic partnership on multiple platforms. GA-ASI’s AM, aircraft integrity, material and design engineering teams are working with Divergent to adapt, apply and qualify its automobile industry-qualified technology to GA-ASI’s aircraft production. 

“Divergent has invented the first industrial digital manufacturing system. Leveraging innovations in artificial intelligence, 3D printing, and automation, DAPS can be used to build the underlying structure for virtually any vehicle – whether land, sea, air, or space – better, faster and more cost efficiently than traditional manufacturing,” said Kevin Czinger, Founder, Lead Inventor & CEO of Divergent.

GA-ASI and Divergent have already completed two projects leading to a fully integrated small (< 500 lbs.) UAS aerostructure, leveraging model-based, AI-driven, and topology optimized designs. The integrated metal structure was 3D printed, which led to the reduction of the part count integration by over 95% while meeting weight targets.

The DAPS process inspected each printed component by creating a full digital twin of the small UAS that was then applied to a fully automated, tool-less robotic assembly process that took less than 20 minutes to complete. This process enabled the team to go from a print-ready small UAS design to a fully assembled deliverable airframe in less than two days. GA-ASI anticipates this capability will enable near-theater ramp capacity in the future to support the warfighter.

This innovative approach to design and manufacturing leads to highly integrated weight and performance-optimized designs that are naturally, but not exclusively, leveraging AM technologies at a substantially lower airframe recurring cost, while providing a rapid tool-less iterative design approach for multiple platform variants.

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Posted by Caroline Rees Caroline co-founded Unmanned Systems Technology and has been at the forefront of the business ever since. With a Masters Degree in marketing Caroline has her finger on the pulse of all things unmanned and is committed to showcasing the very latest in unmanned technical innovation. Connect & Contact