Choosing the Right Industrial 3D Printer
From desktop 3D printing to additive manufacturing, we offer a full line of ultrafast 3D printing solutions that deliver unmatched speed, increase production throughput, and lower total cost of ownership.
NXE 400
Ideal Use
3D printing production and on-demand manufacturing, jigs and fixtures, functional prototypes.
Build Volume
27x x 155 x 400 mm
(10.8 x 6.1 x 15.7inch}
16L Print Volume
Technology
4K (3840 x 2160) max resolution
Pixel Size
76.5 µm (0.0030 in)
Wavelength
405 nm
Investment
Starting at $59,990
XiP
Ideal Use
Prototypes and production-grade applications for engineering, dental, medical, education, and other industries.
Build Volume
195 mm, Y: 115 mm, Z: 210 mm
(7.7 in, Y: 4.5 in, Z: 8.3 in)
4.8L Print Volume
Technology
4K Monochrome 9.3” LCD
Pixel Size
52 µm
Investment
Starting at $5,999
NXD 200
Ideal Use
Dental resin models, splints, impression trays, occlusal nightguards, and more.
Build Volume
275 x 155 x 200 mm
(10.8 x 6.1 x 7.8 inch)
8.5L Print Volume
Technology
4K (3840 x 2160) max resolution
Pixel Size
76.5 µm (0.0030 in)
Wavelength
405 nm
Investment
Starting at $49,990
QLS 820
Ideal Use
Injection mold tolerances for full production capabilities, including high temp materials.
Build Volume
350 x 350 x 400 mm
Technology
Web dashboard
Z.Resolution
50-200 microns
Material Delivery System
Removable Build Unit
Introducing
the NXE 200
We just made our industrial-grade system even more affordable. Starting at just $49,995, the NXE 200 offers a scalable functional prototyping and on-demand manufacturing solution.
Learn MoreHow Our Industrial 3D Printers Are Different
Nexa3D offers end-to-end 3D desktop and industrial grade printing systems with validated workflows, software and post-production capabilities to meet a variety of application needs. Move your production in-house or upgrade your additive manufacturing process to get the fast turnaround time and flexibility you need to scale your additive production and achieve throughput economics unachievable with traditional stereolithography (SLA) printers. When printing using traditional stereolithography (SLA) 3D printers, one of the limiting factors is the delamination forces during printing. Once layers are added during the printing process, they tend to be very fragile and sensitive to peeling forces, and that is why SLA printers print at low speed, so as not to jeopardize the print structure during the printing process.
Our printers are different, in that they use a patented Lubricant Sublayer Photo-curing (LSPc) process that has a self-lubricated membrane enabling ultrafast printing from a few different angles. What our self-lubricated membrane does is eliminate the forces between the part being printed, which is in green state, and the build area. The resin, which is a viscous material, needs to move into the printed area to be able to print the next layer. The flexible membrane means we can address the issue of resin replenishment, which is unaddressable with other SLA techniques. This is because the membrane, thanks to its flexibility, helps to propagate the resin to every area of the print platform, enabling faster printing speeds than other SLA printers.
LSPc vs. Traditional SLA 3D Printers
Our printers use a patented Lubricant Sublayer Photo-curing (LSPc) process that has a self-lubricated membrane enabling ultrafast printing from a few different angles that surpasses what traditional SLA 3D printers are capable of.
Largest Build Volume in Class
The combination of our larger-format build area, print speed, and post-processing automation delivers up to 20x productivity gains.
Print Technology
xCURE and xWASH post-processing systems ensure consistent mechanical properties and predictable part performance.
More Materials, More Options
All Nexa3D’s printers leverage open source material capabilities to give you the widest choice of materials for your prototyping and production needs. Read more about the broad range of materials our printers can accommodate.
Material Selection Guide