Nexa3D Shows Autonomous Automation for Additive Manufacturing
High-throughput selective laser sintering features automated changes of the complete build unit.
Additive manufacturing is ready for production, but realizing this promise involves more than just the 3D printing. It also involves the right system of 3D printers, and in some cases automation. Nexa3D demonstrates this in its booth in the West Building’s Additive Manufacturing Pavilion, showing multiple 3D printing methods for polymer part production, in one case in combination with autonomous automation. Its systems on display include:
- The QLS 820 laser sintering production 3D printer, which features an autonomous removable build unit for rapid, seamless, unattended changeover from build to build.
- The XiP desktop-size photopolymer 3D printer, operating in a “print farm” arrangement showing how many small 3D printers can be a right-size solution for scale production.
- The NXE industrial-grade photopolymer printer, operating in a contract manufacturing mode illustrating AM as a solution for making polymer parts by the thousands.
The QLS machine in particular is a system for volume production, according to the company — an SLS machine that was designed from the beginning for high throughput production. The combination of four lasers and tight job packing density within the build volume allow for three to four times the throughput typical of SLS.
Related Content
-
10 Important Developments in Additive Manufacturing Seen at Formnext 2022 (Includes Video)
The leading trade show dedicated to the advance of industrial 3D printing returned to the scale and energy not seen since before the pandemic. More ceramics, fewer supports structures and finding opportunities in wavelengths — these are just some of the AM advances notable at the show this year.
-
DMG MORI: Build Plate “Pucks” Cut Postprocessing Time by 80%
For spinal implants and other small 3D printed parts made through laser powder bed fusion, separate clampable units resting within the build plate provide for easy transfer to a CNC lathe.
-
Video: 5" Diameter Navy Artillery Rounds Made Through Robot Directed Energy Deposition (DED) Instead of Forging
Big Metal Additive conceives additive manufacturing production factory making hundreds of Navy projectile housings per day.
