Fe-based alloys

    Additive Manufacturing offers a multitude of advantages compared to conventional manufacturing methods like design freedom, shorter lead times or minimum tooling costs. However, up to now there have been only a limited number of commercial alloys available for Additive Manufacturing. Since the performance-requirements of the printed parts in several applications like tooling, aerospace and automotive industry are getting more complex in terms of mechanical properties and corrosion resistance, the powder materials for Additive Manufacturing processes also have to be improved.

    AMPO – Additive Manufacturing Powder
    Melting Routes:
    VIGA– Vacuum Induction Melting Inert Gas Atomization
    EIGA Electrode Induction Melting Inert Gas Atomization

    Böhler Program

     

    BÖHLER Grade Application Segments Melting Route Market grade Material Numbers
    Additive Manufacturing Application
    VIGA BÖHLER patent
    SEL -
    EN -
    UNS -
    Additive Manufacturing Application
    VIGA BÖHLER patent
    SEL -
    EN -
    UNS -
    Additive Manufacturing Application
    VIGA 17-4 PH
    SEL 1.4542
    EN X5CrNiCuNb16-4
    UNS S17400
    Additive Manufacturing Application
    VIGA BÖHLER patent
    SEL -
    EN -
    UNS -
    Additive Manufacturing Application
    VIGA 1.2709 (Marage 300)
    SEL 1.2709
    EN X3NiCoMoTi18-9-5
    UNS -
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