Additive is competitive. This is our philosophy, but also our commitment to advancing the industry by reducing the barriers to entry in Additive Manufacturing.
Want to know if additive manufacturing is the best solution for your business?
Upload your 3D model, our engineers will analyze your business case and they will send you the full application study. For free.
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Upload your 3D model
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Choose the additive process
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Choose your material
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Receive your full application study
Additive processes
Powder Bed Fusion
Powder bed fusion process uses thermal energy to melt specific points on a layer of metallic powder. This process is repeated layer after layer to create the part, allowing the production of parts with complex geometries and high-end part quality
Laser Metal Deposition
The laser metal deposition process uses focused thermal energy generated from a laser source to fuse powder metal sprayed at the focal point of the laser beam. This capability makes the process suitable for adding features to existing parts as well as for repairs and coatings.
Materials
| Alloy | Type | Description | Application Sectors |
| Aluminum Alloys | AlSi10Mg | High heat conductivity, high mechanical properties (strength and hardness), excellent corrosion resistance and low weight | Aerospace, Automotive, Mechanical components |
| Nickel alloys | IN625, IN718 | High yield, fatigue and creep strength with excellent anti-oxidation and anti-corrosion behavior in aggressive environments | Aerospace, Automotive, Biomedical, Chemical, Energy, Oil anGas, Mechanical components |
| Steel alloys | 316L, MS1 | Excellent strength combined with high toughness as well as high ductility and good thermal properties | Aerospace, Automotive, Biomedical, Mechanical components |
| Titanium alloys | Ti-6Al-4V | Low specific weight combined with excellent mechanical properties and corrosion resistance | Aerospace, Automotive, Biomedical |