
2.0 m2 700 l
Build Area Build Volume
4-25 µm
Layer Thickness
up to 720 x 720 x 5,000 dpi
x - y - z Resolution
Production Mode: up to 10 l/h
Rapid Prototyping Mode:
builds up a height of 12.8 mm/h on an area of 0.25 m2
High Speed Rotative Process
Our AMpolar® i2 industrial production 3D printing machine employs a patented
High-Speed Rotative AM Process (HSR). The unique, continuously rotating print platform enables highly productive single-pass printing over an extremely large build area of
2.0 m2 (21.5 ft2) resulting in a build volume of 700 l (24.7 ft3).
To match the productivity output to that of an AMpolar® i2, multiple traditional 3D printers must be operated in parallel, contributing to an increase in costs and complexity. AMpolar® i2 delivers unparalleled output of printed parts per time unit, resulting in a significant reduction in costs per part.
High Resolution and High Precision
Our AMpolar® i2 industrial production 3D printing machine employs a patented
High-Speed Rotative AM Process (HSR). The unique, continuously rotating print platform enables highly productive single-pass printing over an extremely large build area
of 2.0 m2 (21.5 ft2) resulting in a build volume of 700 litres.
To match the productivity output to that of an AMpolar® i2, multiple traditional 3D printers must be operated in parallel, contributing to an increase in costs and complexity. AMpolar® i2 delivers unparalleled output of printed parts per time unit, resulting in a significant reduction in costs per part.

One Printer – Two Print Modes for Seamless Scale-Up
AMpolar® i2 offers a highly effective HSR AM process for the two phases of product manufacturing:
High-Speed Prototyping Mode to optimize design and component quality.
High-Volume Manufacturing Mode to realize series production.
All modes on the same printer to avoid any up-scaling transmission problems during production.

Multi-Process Ability
A fully automated environment has never been easier than with the AMpolar® i2,
where additional automated equipment can be integrated within the printing process. For example, it is possible to combine the rotating print platform with a fully automated pick-and-place process that will pick up parts and place it in a position as printing is resumed to complete the fixture.
