Up to 2800W Laser Power for Demanding Applications
Additive Manufacturing with up to Four Lasers for High-Volume Production
Achieve faster, cost-efficient builds for high volume metal additive manufacturing and larger complex parts
UNIQUE TWIN or QUAD LASER TECHNOLOGY
- 500 x 280 x 365 mm build envelope
- 2 standard 400W or 700W Fiber Lasers
- Option to add 2 additional lasers for quad laser processing
- Integrate various types of lasers independently OR in parallel
- Lower production cost for high volume metal parts with material saving and efficient closed-loop powder handling
- Increase build speeds with patented bi-directional loader
- Adapter for higher platform temperatures
- Open software architecture & system parameters
- Optimized laminated gas flow and re-circulation
As the flagship additive manufacturing system for high volume metal additive manufacturing, the SLM 500 is built to ensure operator safety and lower overall operational costs. Likewise, the integrated SLM Build Processor and open software architecture offer the freedom of controlling system parameters to optimize and meet strict production needs. The large build envelope and laser configuration option combination are unmatched in the industry. Configurable with two or four overlapping lasers and power ratings from 800 to a full 2800 Watts, the SLM 500 offers a system tailored to best meet your specific metal 3D printing requirements.
The SLM 500 patented closed-loop transport of metal powder increases operator safety and eliminates time consuming manual fills and powder handling. To further reduce ancillary times, the automatic powder sieving procedure does not interfere with the parallel-running build process. The finished build cylinder is transported out of the system and the cooling process takes place inside the unpacking unit, so that the next build process can begin immediately.
If you need high volume production of metal parts with complex geometries, selective laser melting will allow you to achieve greater component quality and powder layer control performance. An option to add an Automated Layer Control System is also available to detect and correct powder preparation and execution after each cycle—exercising optimal quality control in your high volume metal additive manufacturing production.
New to selective laser melting (also known as laser powder bed fusion, DMLS, DMLM)? Check out the white papers, case studies, webinars and more in our Metal 3D Printing Resource Center.
SLM 500 Quad Laser System Courtesy of Divergent 3D
|Build Envelope Volume in mm (x/y/z)||500 x 280 x 365 reduced by substrate plate thickness|
|IPG Fiber Laser Power||Twin 2x 400W or 2x 700W
Quad 4x 400W or 4x 700W
|Build Speed||55 ccm/h 400W Twin | 105 ccm/h 400W Quad|
|Layer Thickness||20 – 75 μm|
|Min. Scale Line/Wall Thickness||80 – 115 μm|
|Scan Speed||10 m/s|
|Inert Gas Consumption in Operation||Ar/N₂, 5.0-7.0 L/min|
|Inert Gas Consumption Venting||Ar/N₂, 70 L/min|
|Compressed Air Requirement||ISO 8573-1:2010[1:4:1], 50 L/min @ 6 bar|
|Dimensions in mm (L x W x H)||5200 x 2800 x 2700 (incl. PRS & PSX)|
|Weight||approx. 2400 kg|
|E-Connection / Consumption||400 Volt 3NPE, 64 A, 50/60 Hz, 8 – 10 kW|
Subject to technical changes
More information on our metal powder sieving stations, which aid in high volume metal additive manufacturing, can be found here.