Tritone Dim system
The Tritone Dim System is a compact industrial 3D printer for the additive production of metal and ceramic parts, based on the unique, powder-free MoldJet® technology. With four independently operating construction platforms and layer thicknesses from 25 microns, the system combines high precision and repeatability with robust production capacity.
| Number of trays | 4, simultaneous and independent |
| Building plate | 220 x 120 x 90 mm (4 pieces) |
| Throughput | Up to 220 cc/hour |
| Total build volume | 10 000 cc |
| Nominal layer thickness | Adjustable 25 - 150 µm |
| Machine footprint | 2100 x 1965 x 1935 mm (L x W x H) |
Series production
The Tritone Dim metal printer ensures uniform, reproducible production with a high packing density (>99%) on four independent build platforms. AI-driven real-time quality inspection and automatic corrections minimize errors, guarantee consistent results even with complex part series, and ensure a reliable series production process.
Broad material support
The Tritone Dim metal printer is compatible with a wide range of metal and ceramic pastes based on standard MIM powders. The fast and clean material change increases flexibility for R&D and small series, enables simple material testing and ensures contamination-free production.
Safe and powder-free industrial working environment
Thanks to the powder-free, paste-based process, the risks of powder handling are eliminated. This results in a cleaner and more environmentally friendly working environment with automated finishing, minimal operator contact and low energy consumption — ideal for standard industrial environments.
Compact footprint
Optimized for small production areas and laboratories, the system enables easy integration even with limited space available. The independent control of the build platforms enables parallel production of multiple jobs and supports diverse production requirements and testing without disrupting the process.
Precision
With layer thicknesses up to 25 microns, the Dim System achieves fine geometric details and smooth surfaces, crucial for demanding applications in the medical sector, aerospace and precision tools. This precision guarantees both mechanical and aesthetic quality.