Metal+One® LAM/LMD/DED Small metal direct energy deposition 3D printing equipment (metal additive manufacturing)
Presentation of the equipment's characteristics
In response to the pain points of traditional industrial laser cladding equipment in the application of schools, research institutes and powder manufacturers, the Greenstone technical team has carefully developed and launched a small-volume, refined, and low-powder miniaturized high-throughput material preparation equipment – Metal+®one metal direct energy deposition 3D printing equipment, which is particularly suitable for use in scientific research laboratory environments.
processed samples
Metal+® one
High-throughput metal material 3D printing equipment
Equipment features
- The configured multi-channel powder feeder can achieve real-time mixing of multiple powders, and the mixing ratio is precisely controllable;
- Develop a dedicated high-throughput test software system and interface to print material samples with different composition ratios in one batch;
- It can provide customers with a high-throughput or gradient functional material test and research equipment with high efficiency, high powder utilization, flexible composition ratio, and a wide range of material selection, which is suitable for the composition screening, performance research and gradient material research of steel materials, aluminum alloys, titanium alloys, nickel-based high-temperature alloys, high-entropy alloys, and ceramic powder materials.
Working principle
The equipment uses dedicated control software to generate printing trajectories and powder feeding rates of each powder barrel of different samples according to the different multi-component powder ratios and print quantities preset in the experiment. Printing begins after the water and oxygen index in the environmental chamber drops below 10ppm. After the powders with different powder feeding rates enter the powder mixer for real-time and full mixing, they enter the coaxial nozzle and are ejected under the conveyance of inert protective gas. The high-power laser melts the powder and moves along the preset trajectory driven by the three-axis mechanism to print test samples with different composition ratios.
| Equipment technical parameters |
| Device Name | High Throughput Metal Material 3D Printing Equipment |
| Working Range | 300×300×200mm |
| Melt Pool Morphology Detection | CCD Coaxial Camera |
| Repeat Positioning Accuracy | ±0.05mm |
| Powder Feeder | Optional 4/5/6 Cylinders |
| Environmental Chamber Water-Oxygen Index | ≤10ppm |
| Operating Voltage | AC380V ±10% / 3P+N+PE |
| Printable Material Range | Steel materials, aluminum alloys, titanium alloys, nickel-based superalloys, high-entropy alloys, ceramic powder materials, etc. |
Tests
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