Our Additive Manufacturing metal powders are developed and manufactured by the global steel market leaders BÖHLER and UDDEHOLM in dedicated powder manufacturing plants in Kapfenberg (Austria) and Hagfors (Sweden).
Drawing on our long history of producing high quality alloy steels for the Aerospace, Oil & Gas, and Automotive industries, we ensure our AM powders are manufactured to the highest quality standards and designed perform at the highest levels of performance.
We do more than just produce AM powders. Our test laboratories design our powders specifically for 3D printing at our voestalpine Additive Manufacturing Centers and for use by our customers in a range of OEM printing systems.
Our Additive Manufacturing metal powders are produced from the highest quality raw materials produced in our own European steel mills, ensuring full traceability through the manufacturing process.
Our powders are produced using latest vacuum induction melting and atomization techniques, with analysis and testing performed in-house at our state of the art metallurgical laboratories.
Our material portfolio goes beyond standard material grades commonly used in Additive Manufacturing applications. We develop dedicated high performance steel and nickel alloy materials for use in specific industry applications such as High Pressure Die Casting and Plastic Injection Molding.
All of our AM powders are available in particle size ranges to suit both Laser Powder Bed (15-45μm) and Laser Powder Deposition (45-90μm) technologies.
UDDEHOLM AM CORRAX Patented The ultimate choice for tools where superior corrosion resistance and high hardness are needed. These properties makes it suitable demanding applications such as molds for medical parts, and corrosive plastics such as PVC.This material has excellent polishability, which makes it the ideal choice for 3D printed Plastic Injection Molding tooling inserts. | Spec PSD 20-50μm & 50-150μmAchievable hardness of approx 50 HRC. | Datasheet AM CORRAX |
BÖHLER AMPO M789 Patent A newly developed maraging steel, which combines the mechanical properties of 1.2709 with the corrosion resistance of 17-4PH. This grade can easily printed without any preheating.This material has excellent polishability, which makes it the ideal choice for 3D printed Plastic Injection Molding tooling inserts. | Specs PSD 15-45μm & 45-90μmAchievable hardness of approx 52 HRC. | Datasheet M789 |
BÖHLER AMPO W360 Patent The powder equivalent of the W360 ISOBLOC. Due to its chemical composition, the material belongs to the product group of premium hot work tool steels.This material has high temperature wear resistance, heat resistance and toughness, making it an excellent choice for 3D printed High Pressure Die Casting tooling inserts and an alternative to H11 & H13. | Specs PSD 15-45μm & 45-90μmAchievable hardness of up to 57 HRC. | Datasheet W360 |
BÖHLER AMPO E185 Patent Low alloyed steel with easy printability. Allows the possibility for surface treatments (e.g. case hardening or nitriding) was developed especially for the demands of the 3D printing industry.The material shows an excellent combination of strength and toughness. | Specs PSD 15-45μm & 45-90μm | Datasheet E185 |
BÖHLER AMPO L625 UNS N06625 / 2.4856Non-magnetic, corrosion and scale-resistant nickel-base alloy (Inconel 625). High toughness and strength from the lowest temperatures up to 1000 °C. | Specs PSD 15-45μm & 45-90μm | Datasheet L625 |
BÖHLER AMPO L718 UNS N07718 / 2.4668Hardenable nickel-base super alloy (Inconel 718). Heat-resistant material shows good strength properties at elevated temperatures up to 750 ° C, and excellent creep resistance up to 700 ° C. | Specs PSD 15-45μm & 45-90μm | Datasheet L718 |
BÖHLER AMPO L718 API API ApprovedHardenable nickel-base super alloy (Inconel 718). Heat-resistant material shows good strength properties at elevated temperatures up to 750 ° C, and excellent creep resistance up to 700 ° C. | Specs PSD 15-45μm & 45-90μm | Datasheet L718 API |
BÖHLER AMPO N700 17-4 PH / 1.4542Precipitation hardening nickel martensitic steel (17-4 PH). This material has excellent corrosion resistance and can be printed easily without additional heating of the platform or chamber. | Specs PSD 15-45μm & 45-90μmAchievable hardness of 40 HRC. | Datasheet N700 |