The technology behind the bridge

MX3D equips multi-axis industrial robots with 3D printing tools and develops software so that the robots print metals, plastics and combinations of materials in virtually any format. From large construction to small part – with this technique MX3D can 3D print strong, complex structures of durable material. The new technique is cost-effective and scalable, more than current 3D printing methods, and offers creative robot production solutions for art, construction and more.

Tim Geurtjens, CTO MX3D:

“What distinguishes our technology from traditional 3D printing methods is that we work according to the ‘Printing Outside the box’ principle. By printing with 6-axis industrial robots, we are no longer limited to a square box in which everything happens. Printing a functional, life-size bridge is of course the ideal way to showcase the endless possibilities of this technique. ”

Digital Craft

MX3D’s engineers, craftsmen and software experts bring together digital technology, robotics and traditional industrial production in the Bridge project; they research the construction site of the future, test and share their knowledge with a Field Lab of TU Delft.

Maurice Conti, Director Strategic Innovation, Autodesk:

“The MX3D platform is a potential game changer. Breaking free of the traditional limitations of additive manufacturing – small size prints and poor material performance – this technology opens up possibilities for architectural-scale, relatively low-cost, metal structures that are as complex as the designer’s imagination.”

The MX3D Bridge project would not exist without the support of partners, Autodesk, Heijmans, Air Liquide sponsors, ABB robotics, STV, Delcam, Within, Lenovo, public partners TU Delft, AMS, Amsterdam City Council.