• 3D modeling

    Applications for 3D modeling, virtual validation of the part’s properties, model preparation for 3D printing.

  • Bionic design

    Process-oriented design means consideration for technologies used in additive manufacturing. Bionic design and topology optimization are used to model complex parts, which are lighter due to their improved geometry, offer better functionality and durability against external impacts.

  • Reverse Engineering

    3D scanning hardware and software systems for obtaining accurate mathematical descriptions of physical objects / models if design documentation is not available.

Parts Post Processing

  • Additional photopolymerization

    A special-purpose UV chamber is used for post-curing and hardening of the outer layers after the 3D part had been printed.

  • Cold abrasive processing

    To improve the surface quality of additive metal parts, they are finished by blasting. The part’s outer surfaces are treated by an airflow containing sand or other blasting abrasive particles.

  • Hydro-abrasive polishing

    A stream of fluid with suspended abrasive particles is used to process the inner channels of an additive metal part.

  • Thermal processing

    Specialized tempering ovens with a number of temperature modes are used to treat metal parts in order to eliminate inner material tension, increase the part’s ductility, and decrease its fragility after additive manufacturing.  

Non-Destructive Control

  • Computed tomography

    A system for high-resolution radioscopy and computed tomography of metals is used to validate the inner structure of additively manufactured parts.

  • Visual inner channels inspection

    Flexible fiber-optical endoscopic videoscope systems are used for visual inspection of additive parts’ inner channels of 5.5 mm to 10 mm diameter.

  • Surface accuracy rendering

    The hardware and software system for laser measuring of the distance to object surface control points and projecting a pseudo-coloured image to show geometry discrepancies for the object and the reference 3D model. The technology is used for visual validation of surface geometry accuracy for the tested object.