Metal 3D printing with multiple lasers and closed-loop powder handling. The SLM®280 2.0 is ideal for medium to high volume metal additive manufacturing part production and prototypes.

  • 280 x 280 x 365 mm build envelope 
  • Multi-laser (twin)
  • Multi-material

Ideal for medium to high volume metal part production and prototypes, the robust second-generation SLM®280 2.0 selective laser melting system offers a 280 x 280 x 365 mm build envelope and patented multi-beam laser technology with up to two fiber lasers exposing the build field via a 3D scan optic. Multi-laser systems can achieve build rates of 80% faster than a single laser, and patented bi-directional powder recoating minimizes manufacturing time by reducing the number of passes required to lay fresh powder during a build.


SLM 280 2.0

Medium to High Volume Metal 3D Printer

The SLM®280 can be equipped with up to two 700W fiber lasers to accelerate the printing process of many metal additive powders.

Patented bi-directional powder recoating helps reduce manufacturing time by depositing a new layer of powder in both directions without having to return to a “home” position.

Paired with a Powder Sieving Machine (PSM), the SLM®280 offers material flexibility. Manual sieves allow efficient material changeover for adaptable production while maintaining safety and quality

The patented bi-directional powder coating helps reduce the manufacturing time by depositing a new layer of powder in both directions without having to return to a “home” position. Coupled with the PSM powder sieve, material handling is performed in a safe and inert gas atmosphere. Also, SLM®280 systems regularly achieve 80% higher build rates than competitive single-laser offerings; accomplished by proper laser configuration and SLM Solutions’ bi-directional powder recoating.

Outfitted with a standard PSM powder sieve, overflow bottles transfer material between sieve and machine reducing operator contact with loose powder. PSM sieves and powder change kits allow users material flexibility while maintaining powder quality in an inert atmosphere.