FORMIGA P 110
Compact laser sintering system for rapid prototyping applications and small series.
Innovation
- Additive Manufacturing of products directly from CAD data within just a few hours
- Cost-efficient, batch-size appropriate production
- Flexible balancing of component requirements (mechanical criteria, surface quality, consistency of form, etc.) with the greatest possible cost efficiency through the use of suitable EOS parameter sets
Quality
- Maximum reproducible part quality that has set quality standards in the market (“FORMIGA Quality”)
- Optimised thermal management (improved dosing tray tempering and new 4-channel heating)
Sustainability
- The material portfolio available for the FORMIGA P 110 particularly encompasses materials with a high level of recyclability, thus reducing costs and protecting the environment
- During system development particular attention has been paid to low operating costs thanks to minimised energy consumption
- An external nitrogen connection enables connection to a central nitrogen supply, reducing the amount of compressed air required by the machine
Efficiency
- Shortened cycle times thanks to the optimisation of the laser sintering process steps
- Minimum downtimes thanks to the streaming concept: The system can start building the job as soon as the job file is loaded
- Optimum usability of the construction space thanks to an improved thermal management system
Flexibility
- Easy integration in existing production environments
- A wide range of materials is available (PA 2200, PA 2201, PA 3200 GF, PrimeCast 101, PA 2105 and various other materials in planning)
- PA 2200 is now also available in 0.06 and 0,12 mm layer thicknesses, as well as 0.1 mm
User-friendliness
- Convenient handling through a high degree of automation and intuitive user interface
- Design for low-dust, ergonomic work conditions
- Data can be prepared in a convenient way in the workplace
Technical Data
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FORMIGA P 110 |
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Effective building volume |
200 mm x 250 mm x 330 mm |
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Building speed (depending on material) |
up to 20 mm/h (0.79 in/h) |
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Layer thickness (depending on material) |
0.06 mm, 0.1 mm, 0.12 mm (0.0024 in, 0.0039 in, 0.0047 in) |
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Support structure |
not required |
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Laser type |
CO2, 30 W |
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Precision optics |
F-theta lens |
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Scan speed during building |
up to 5 m/s (16.4 ft/s) |
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Power supply |
16 A |
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Power consumption |
2 kW |
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Nitrogen generator incl. external nitrogen connection |
integrated |
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Compressed air supply |
min. 6 000 hPa (87 psi); 10 m3/h (13.08 m3) |
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Dimensions (W x D x H) |
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System incl. powder containers and touch screen |
1 320 mm x 1 067 mm x 2 204 mm (51.97 in x 42.01 in x 86.77 in) |
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Recommended installation space |
3.20 m x 3.50 m x 3.0 m (126 in x 137.8 in x 118.1 in) |
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Weight |
approx. 600 kg (1.323 lb.) |
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Unpacking and sieving station (optional) |
1 200 mm x 700 mm x 1 500 mm (47.24 in x 27.56 in x 59.06 in) |
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Powder mixing station (optional) |
700 mm x 500 mm x 1,000 mm (27.56 in x 19.69 in x 39.37 in) |
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Data preparation |
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Software |
EOS RP Tools (optional); Desktop PSW |
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CAD interface |
STL (optional: converter to all common formats) |
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Network |
Ethernet |
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