USA & Canada
USA & Canada
Case Study

Boom Supersonic and sustainability.


Boom Supersonic and sustainability.

Learn how Boom Supersonic utilizes Stratasys 3D printing technology to redefine commercial air travel.

Customer profile.

Boom Supersonic is redefining commercial air travel by bringing sustainable, supersonic flight to the skies. Boom’s historic commercial airliner, Overture, is designed and committed to industry-leading standards of speed, safety, and sustainability. Overture will be net-zero carbon, capable of flying on 100% sustainable aviation fuels (SAF) at twice the speed of today’s fastest passenger jets. XB-1, a demonstrator aircraft, rolled out in 2020, and its net-zero carbon flight test program is underway.  

Learn how Boom Supersonic utilizes Stratasys 3D printing technology

Challenge.

Joining the various parts of the XB-1 demonstrator aircraft requires numerous holes to be drilled in the airframe structure. Drilling them individually can be extremely time consuming due to the time required to properly locate each hole. The power-feed drilling process also requires fixturing to support the drilling tool and establish the correct angle of each hole. Drill guides offered a practical solution, but conventional metal guides would have presented high costs and excessive lead times. 

Solution.

Boom engineers 3D printed multi-hole drill guides for accurately locating fastener holes over larger areas of the aircraft’s structure. The drill guides were printed on the Fortus 450mc™ and F900™ printers using FDM® Nylon 12CF carbon fiber and ULTEM™ 9085 resin materials. These strong, rigid thermoplastics provide sufficient strength and stiffness to support the power-feed drilling tools while offering the precision needed for accurate hole location. 
Solution

Impact.

Using just one typical drill guide as an example, Boom saved approximately $3,700 in material cost and reduced lead time from weeks to days. Considering that over 700 drill blocks have been 3D printed in the production of the XB-1 demonstrator aircraft so far, the material cost savings is significant. The lead time savings between in-house 3D printing and machining also has a substantial positive impact on the production schedule.
Impact

Download the case study

Related Content

3D Printed from Nylon-CF10 using Stratasys FDM Technology - 3D Printing Solutions.

Why You Should Consider 3D Printing Soft Jaws Instead of Machining Them

3D printed CNC fixtures such as soft jaws save time and money. Learn more about the benefits of additive manufacturing with Stratasys 3D printing solutions.

View more
3d printing real elastomers thermoplastics

3d printing real elastomers and other thermoplastics

Learn about different 3D printing materials and essential information regarding application fit, material characteristics and discover the best choice for you.

View more
business considerations

What you need to know about production tooling with 3D printing.

Get reasons for using additive manufactured production tooling with our guide that focuses on the business considerations in the production of tooling.

View more
3D Printed from Nylon-CF10 using Stratasys FDM Technology - 3D Printing Solutions.

3D printed CNC fixtures such as soft jaws save time and money. Learn more about the benefits of additive manufacturing with Stratasys 3D printing solutions.

3d printing real elastomers thermoplastics

Learn about different 3D printing materials and essential information regarding application fit, material characteristics and discover the best choice for you.

business considerations

Get reasons for using additive manufactured production tooling with our guide that focuses on the business considerations in the production of tooling.