Eplus3D EP-M400S
High-Productivity Metal Laser Melting System for Optimal Efficiency
The EP-M400S is available in four configurations: Single, Dual, Triple, or Quad-Laser systems allow for high flexibility when printing with titanium, aluminum, nickel-based alloys, martensitic stainless steels, cobalt-chrome alloys, and other materials. The EP-M400S enables the direct production of large, high-precision, and high-performance components for aerospace and other industries.
Medicine
Automotive Industry
Aerospace
Trade Goods
Energy
Architecture
Prototypes
High efficiency
Supports four different printing configurations: Single, Dual, Triple, and Quad-Laser. The independently developed processing software enables optimized scanning strategies and a reduction in processing time. Bidirectional coating for maximum productivity. Closed powder feed system for minimal user powder interaction and reduced setup times.
Up to 190 cm³/h
Build Speed
20 μm – 120 μm
Layer Thickness
400 x 400 x 450 mm
Print Volume
High performance
The 3-stage filtration system, equipped with permanent filter elements and an innovative blow-back function, removes welding fumes extremely efficiently. Excellent laser beam and power stability, along with intelligent energy regulation strategies, effectively inhibits the formation of porosity, microcracks, and bonding defects in the components. The optimized gas flow design ensures effective removal of dust and condensate, ensuring consistent printing for full-format parts.
Real-Time Process Monitoring
Safe and reliable monitoring of the protective gas atmosphere & environment in real-time. The equipment has received EU-CE certification and FDA certification for laser safety and has been rated highly for safety.
High Safety
Safe design prevents operator errors, electrical shocks, fire hazards, and air pollution. The well-thought-out overall sealing of the system maintains a closed loop for both powder use and recovery processes.
High Automation
User-friendly interface with fully automated one-click printing technology. Real-time print job monitoring via control software and traceable analysis of print job parameters.
Eplus3D Software Solutions
EP-Hatch Print Process Planning Software
EP-Hatch is a process planning software developed by Eplus3D specifically for its additive manufacturing systems. It can optimize the print path based on the already sliced and output data and adjust the scan path separately for contour, interior, top, and bottom surfaces of the part. Additionally, EP-Hatch comes standard with a variety of advanced scan strategies such as long straight lines, short straight lines, and chessboard patterns, enabling optimal process settings for specific materials.
Eplus3D Control Software
The control software developed by Eplus3D represents a powerful control system. With an open and user-friendly interface, it allows users to easily manage their digital files from build preparation and part positioning and provides the ability to monitor during the build process along with reporting. The powerful control and operating system supports not only the printing of mature materials but also the development of new materials.
Eplus3D EP-M400SSupport and Service
- Professional consultation
- Sample print creation
- Customized packages for industrial clients
- On-site training
- Customized service packages
- Complete solution with closed depowdering station
- Component optimization via remote maintenance
- Material testing
- Process optimizations
- Custom seminars on-site
- On-site service
Technical Specifications
Maschinenmodell | EP-M400S |
Bauraum (X x Y x Z) (Höhe inkl. Bauplattform) | 400 x 400 x 450 mm (15.75 x 15.75 x 17.72 in) |
Optisches System | Faserlaser 1 / 2 / 3 / 4 x 500 W (optional 700W und 1000 W ) |
Laserspotgröße | 70 - 120 μm |
Max. Scangeschwindigkeit | 8 m/s |
Schichtdicke | 20 μm - 120 μm |
Theoretische Baugeschwindigkeit | Bis zu 190 cm³/h |
Material | Titan-, Aluminium-, Nickelbasis-, Cobalt-Chromlegierungen sowie martensitaushärtbare- und Edelstähle, etc |
Stromversorgung | 380 V, 50 / 60 Hz, 12.5 ~ 18 kW |
Gasversorgung | Ar/N2 |
Sauerstoffgehalt in Prozesskammer | ≤ 100 ppm |
Dimensionen (L x B x H) | 3530 x 1700 x 2800 mm |
Gewicht | 5000 kg |
Software | EPControl, EPHatch |
Format Eingangsdaten | STL oder andere konvertierbare Formate |