Boom Supersonic and Stratasys continue partnership to produce parts for Supersonic Demonstrator Aircraft

Stratasys announced it is deepening its partnership with Boom Supersonic – the Colorado-based company building history’s fastest supersonic airliner. In signing a seven-year agreement extension, the companies are further accelerating adoption of additive manufacturing for 3D-printed flight hardware.

Expanding 3D printing beyond rapid prototyping, Boom Supersonic uses the Stratasys® F900® 3D Printer with the Aircraft Interiors Solution (AIS) package to create hundreds of 3D printed parts for XB-1, the company’s supersonic demonstrator aircraft. The AIS package helps improve mechanical properties and enables repeatable development of aircraft production parts.

3D printing in aerospace
Boom Supersonic is capitalizing on the power of Stratasys 3D Printing for more effective creation of composite part tooling on its XB-1.

“By being able to print critical parts and components on site rather than purchasing them from a supplier, we can create custom parts, increase our speed from engineering to manufacturing, and focus on building the aircraft and fulfilling our vision,” said Mike Jagemann, Head of XB-1 Production at Boom. “During the first three years of our partnership, we 3D printed more “By being able to print critical parts and components on site rather than purchasing them from a supplier, we can create custom parts, increase our speed from engineering to manufacturing, and focus on building the aircraft and fulfilling our vision,” said Mike Jagemann, Head of XB-1 Production at Boom. “During the first three years of our partnership, we 3D printed more than 200 parts for tooling, prototypes and test benches using Stratasys’ F370 and Fortus 450mc 3D printers, and have saved hundreds of hours of work time, enabling rapid iteration of design cycles.”

Stratasys F900 3D Printer and Aircraft Interiors Solution (AIS) provide a faster, more streamlined approach to qualify additively manufactured parts for aircraft installation.

The new agreement is designed to integrate FDM 3D printing technology into flight part production for XB-1, and eventually for Overture – the revolutionary Mach-2.2 commercial airliner. Providing a faster, more streamlined approach to qualify additively manufactured parts for aircraft installation, Stratasys AIS package will be instrumental to the aircraft expected to fly more than two times the speed of sound, or in excess of 1,500 miles per hour (2,400 km/h).

“The team at Boom is doing something that’s never been achieved – successful mainstream supersonic airline travel. But development of aircraft that can safely and efficiently travel at Mach 2.2 requires a new approach to manufacturing processes,” said Rich Garrity, President Americas, Stratasys. “Working together, our teams have put the technology to work for efficient, reliable and repeatable prototypes, tooling and jigs and fixtures. Now, we’re ready to go further – for strong, durable, lightweight production-grade aircraft parts.”
The Stratasys F900 3D Printer, with its high repeatability and large build size, is suited to handle complex production manufacturing needs, using a range of thermoplastics with advanced mechanical properties for parts that can endure extreme heat, caustic chemicals, and high-impact applications.

3D printing in aerospace

The AIS package offers aerospace manufacturers the documentation and training necessary to guide the complex qualification process. The end result is flight-ready parts based on additive manufacturing.

XB-1 is expected to be rolled out later this year and flown supersonically in 2020. Overture is in the development stage with consumer travel expected to commence in the mid-2020s.

Stratasys
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