Additive Manufacturing
The manufacturing process that allows designing produce implants in any geometries
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Additive Manufacturing of products from CAD data by means of Direct Metal Laser Sintering (DMLS)
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The material used is Titanium alloy Ti64ELI (grade 23)
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Final part precision on the level of ±25μm
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High-quality volume density with a low porosity level
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Stable material parameters with the ability to be improved by annealing methods
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Large building volume 250x250x325mm
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Ability to run 24/7 with a high productivity level
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Ability to produce porous surface structures
Porous structure
Unique structures improve the osteointegration and reduce implant weight
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AM facilitates manufacturing of implants with the porous structure on the surface
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Technology enables to create implants with physical properties very similar to human bone
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Porous structures can be manufactured with various geometric shapes, pore sizes and lamellae thickness
Raw Material
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Titanium alloy Ti6Al4V ELI (grade23) is applied in the process
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Commonly used in medical applications, it conforms to the international standard ASTM F136 & ASTM F3001-14
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Characterized by high strength while maintaining low weight and excellent biocompatibility
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Application in additive manufacturing allows producing a patient-specific implant
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Material and production technology used has practically unlimited possibilities at the required shape and size of the implant