Firefly Aerospace, Inc., a leading provider of economical and dependable launch vehicles, spacecraft, and in-space services, announced a substantial commitment to increase its manufacturing capacity by transitioning large parts manufacturing to Automated Fiber Placement (AFP) Mongoose Hybrid systems from Ingersoll Machine Tools beginning next year. Once fully operational, Firefly’s AFP capabilities will enable it to produce its all-composite Alpha rocket airframe in as little as fourteen days.
«From the outset Firefly chose to utilize 21st century materials and manufacturing processes in our spacecraft and rocket designs. Metallics were the most prevalent aerospace material of the last century; composites, which are stronger and lighter than metallics, are the choice for modern aircraft. Firefly’s Alpha is the world’s largest all-carbon-fiber liquid fueled rocket,» said Firefly CEO Dr. Tom Markusic. «High speed, robotic, largescale automated fiber placement (AFP) machines, like those produced by Ingersoll Machine Tools, are now widely utilized in the aircraft industry. These machines essentially allow you to 3D print composite structures of very large dimensions (e.g., commercial aircraft), something that is significantly more challenging with metallic 3D printing. Given that we can simply purchase machines which have been developed and proven by the aircraft industry and immediately achieve major cost, weight, and production time savings, it’s obvious to us that AFP is the most efficient and cost-effective approach to future rocket production. Firefly intends to pass those savings on to our customers.»
The first AFP system in May 2021
Firefly will install the first of two planned AFP systems in May 2021 at its manufacturing and test facility in Briggs, Texas, where Alpha will be requalified using AFP manufacturing processes. Firefly’s new Florida Space Coast factory and launch site at Cape Canaveral will house the second automated assembly line beginning 2022 and will ultimately be capable of producing an estimated 24 Alpha rockets per year, with the Briggs plant switching to automated developmental builds of the larger Beta launch vehicle. Firefly will leverage the same AFP that leading aerospace companies are increasingly using to more efficiently manufacture the latest composite airframes for commercial airliners and government aircraft and fighter jets, ranging from the Boeing 787 and Airbus A350 to F-35s. Once up and running at capacity, Firefly’s AFP system will fabricate all carbon-fiber structures of an Alpha rocket, including barrels, fairings, domes, and payload components, in as little as fourteen days.
Equipped with Ingersoll’s new Hawk fiber delivery module
Firefly’s Mongoose Hybrid will be the first equipped with Ingersoll’s new Hawk fiber delivery module, designed and tested for high productivity and high-reliability layup of mild curvature surfaces. Mongoose Hybrid also features Ingersoll’s automatic exchange of multiple composite manufacturing modules operating in adjacent workzones, allowing automated layup on multiple tools without human intervention. Firefly’s new automated rocket factories will produce a broad range of benefits, including a 30-50% reduction in composite materials waste, increased repeatability, reduced touch labor and build times, and a tailored and optimized structure that further reduces weight and overall costs. «Ingersoll is thrilled to bring our vast experience in automated composite manufacturing and robotics across the aerospace industry into the world of space rocketry and exploration with Firefly,» said Chip Storie, CEO of Ingersoll Machine Tools.
«Ingersoll has played an important role in enabling breakthrough airframe production for major aircraft designs around the world, including the 787 and A350, and we look forward to supporting Firefly and its innovative approach to the efficient and cost-effective production and further development of its Alpha, Beta, and future spacecraft.»
«As Firefly approaches our first Alpha launch, our focus is transitioning to scaling our operational capabilities to meet the fast-growing commercial, government, and scientific mission demand for space access with the lightest, strongest, fastest built precision-made rocket in the industry,» added Dr. Markusic. «The integration of Ingersoll’s factory automation technology into our production lines in Texas and Florida represents a major investment in our future as a company and in the future of the cis-lunar space economy.»