1/ Overview
SLM® 125HL SYSTEM HIGHLIGHTS
Considered Best-in-Class due to a build speed of 25 ccm/h
Ideal for low volume metal part production, as well as research & development
GAIN GREATER CONTROL AND COST EFFICIENCY
– Increase build speed with patented bi-directional loader movement
– Adaptable for research & development
– Modify system parameters according to your production needs
– Open and flexible software architecture
– Optimized gas recirculation at a laminar flow provides for safe and cost efficient consumption
– Closed-loop powder handling
The new compact Selective Laser Melting System SLM® 125HL offers a build envelope of 125 x 125 x 75 (125 optional) mm. Economical and suitable for R&D as well as small lot production environments, the open software architecture and system parameters allows you to make modifications according to your specific production needs.
Achieve fast build speeds from the system’s patented bi-directional loader movement. Internal recirculation of inert gas at laminar flow also provides for safe and cost-efficient gas consumption.
The SLM 125HL is equipped with software for importing CAD / STL data or slice data to configure the processes and component-specific parameters. Achieve greater system control by customizing your own construction processes through the unique, flexible and open software architecture.
The system is able to process most metals (such as Stainless Steels, Tool Steels, Cobalt Chrome, Aluminum, Inconel and Titanium) through a material saving, closed-loop powder handing unit. Changing the metal powder is quick, easy and designed to lower your production costs. Further available options will also increase the versatility and multiple usability of the SLM 125HL
2/ Technical Data
System configuration for all types of metal powders / Technical changes reserved
| Build Envelope (L x W x H) | 125 x 125 x 125 mm³ reduced by substrate plate thickness |
| 3D Optics Configuration | Single (1x 400 W) IPG fiber laser |
| Build Rate | up to 25 cm³/h |
| Variable Layer Thickness | 20 µm – 75 µm, 1 µm increments |
| Min. Feature Size | 140 µm |
| Beam Focus Diameter | 70 µm – 100 µm |
| Max. Scan Speed | 10 m/s |
| Average Inert Gas Consumption in Process | 2 l/min (argon) |
| Average Inert Gas Consumption Purging | 70 l/min (argon) |
| E-Connection / Power Input | 400 Volt 3NPE, 32 A, 50/60 Hz, 3 kW |
| Compressed Air Requirement / Consumption | ISO 8573-1:2010 [1:4:1], 50 l/min @ 6 bar |
| Dimensions (L x W x H) | 1400 mm x 900 mm x 2460 mm |
| Weight (incl. / without powder) | approx. 750 kg / ca. 700 kg |