33.BI-MU

33.BI-MU
Fiera Milano Rho, Italy
October 12-15, 2022

Book a Meeting with Velo3D at 33.BI-MU and Visit us in Hall 15, Booth #F44

We’d like to give you the opportunity to have an intimate conversation with our sales leadership team. Complete the form to the right to book a meeting. We encourage you to bring us your most challenging and intricate design projects.

During this conference, Velo3D’s Technical Sales Engineer, Riccardo Tosi will be presenting at AITA stand (Hall 15 – F34) on Friday October 14 from 11.30 to 11.45. Check out the schedule via the link below and be sure to attend!

Visit the 33.BI-MU website

About Velo3D

Velo3D is a metal 3D printing technology company that provides the industry’s most advanced end-to-end metal 3D printing solution for mission-critical parts.

3D printing—also known as additive manufacturing (AM)—has a unique ability to improve the way high-value metal parts are built. However, conventional metal AM has been greatly limited in its capabilities since its invention almost 30 years ago. This has prevented the technology from being used to create the most valuable and impactful parts, restricting its use to specific niches where the limitations were acceptable.

Velo3D has overcome these limitations so engineers can design and print the parts they want. Our solution unlocks true design freedom and enables customers in space exploration, aviation, power generation, energy, and semiconductor to innovate the future in their respective industries.

Using Velo3D, these customers can now build mission-critical metal parts that were previously impossible to manufacture. The end-to-end solution includes Flow print preparation software, the Sapphire family of printers, and Assure quality control software—all of which are powered by Velo3D’s Intelligent Fusion manufacturing process.

We partner with the world’s most pioneering companies, including SpaceX, Honeywell, and Lam Research, where our revolutionary solution is used to drive innovation, enhance efficiency, and to produce critical applications.