Additive Manufacturing Aircraft with Titanium 3D-Printed Parts

Editor: Isabell Page

The XB-1 aircraft contains more than 20 titanium parts from the 3D printer, mainly for critical engine operations in an extremely high temperature environment.

Related Companies

XB-1 will fly with Titanium 3D-printed components, most of which perform critical engine operations. All parts are manufactured on VELO3D’s Sapphire system.
XB-1 will fly with Titanium 3D-printed components, most of which perform critical engine operations. All parts are manufactured on VELO3D’s Sapphire system.
(Source: Boom Supersonic and VELO3D)

The digital manufacturing innovator VELO3D announced that Boom Supersonic’s XB-1 aircraft includes 21 flight hardware components that were manufactured by VELO3D’s Sapphire 3D metal printer. This aircraft marks a turning point in commercial viability for supersonic travel and demonstrates the power of additive manufacturing, or 3D printing, to enable innovation while accelerating product development.

“Aviation hardware is especially difficult to manufacture with 3D metal printing, due to challenging aerodynamic designs that must be balanced with superior durability and high temperature requirements,” said Benny Buller, CEO and Founder of VELO3D . “VELO3D ’s technology allows the production of lightweight, complex designs for mission-critical applications in the toughest operating conditions. Our partnership with Boom is truly an advancement for the metal AM industry, and XB-1 supersonic aircraft is a game-changer for the aviation industry.”

Boom Supersonic and VELO3D announced a partnership in 2019 to manufacture complex flight hardware to build XB-1, and ran a series of qualification trials on VELO3D’s Sapphire system. The printed Titanium parts are used for engine hardware, the environmental control system, and structural components. Characteristics of the geometric designs include tall, thin walls with high aspect ratios, which are inherently difficult to manufacture with either traditional processes such as welding and casting, or even most existing 3D printing technologies. The printing process enables unprecedented design freedom and quality control, eliminating manufacturing constraints to innovation in aircraft design.

XB-1 is the world’s first independently developed supersonic jet. It will be used to demonstrate critical technologies for Overture, Boom’s future commercial airliner, such as advanced carbon-fiber composite construction, computer-optimized high-efficiency aerodynamics, and an efficient supersonic propulsion system. XB-1 is the end-product of years of development effort, including multiple wind tunnel trials, dozens of structural tests, hundreds of simulation iterations, and tens of thousands of work hours.

(ID:47029173)