QuesTek's New 17-4 Powders Allow Production of Complex and High-strength Stainless Parts via AM

Press Release Summary:

• Stainless steel composition for powder bed fusion additive manufacturing for use either in the as-printed condition or with a single low-temperature heat treatment
• Available in two feedstock options QT 17-4 for use in the direct aged condition and QT 17-4+ for use in the as-printed condition
• Used in a range of industries including aerospace, defense, medical, chemical processing and energy

Original Press Release:

High-performance Stainless Steel Material for Additive Manufacturing Announced

Evanston, IL – QuesTek Innovations LLC, a leading developer of new metal alloys and powders, has announced a stainless steel composition for powder bed fusion additive manufacturing (AM) for use either in the as-printed condition or with a single low-temperature heat treatment. This development is significant because it allows for production of complex, high-strength stainless parts via AM, comparable to wrought 17-4 PH, but without the need for expensive cryogenic processing or high-temperature heat treatment. The project has been funded by the US Navy Small Business Innovation Research program.

Commonly used 17-4 steel in AM often requires higher-cost argon-atomized powder to avoid retained austenite issues and it yields poor properties; however, even properties of argon-atomized 17-4 properties fluctuate widely and are sensitive to the feedstock composition.

Commenting on this development, Dr. Dana Frankel, QuesTek Manager of Design and Product Development said “With QuesTek’s QT 17-4 powders, a fully martensitic microstructure is achieved in the as-printed condition. The high temperature solution heat treatment process, required for conventional 17-4, is not needed for QuesTek’s alloys, and the resulting properties have less variation.”

Two feedstock options are available: QT 17-4 for use in the direct aged condition and QT 17-4+ for use in the as-printed condition. The corrosion resistance and fatigue performance of both designed AM alloys is equivalent or improved over AM material printed using commercially available 17-4 powders.

Although QuesTek’s initial effort has focused on powder-based AM, it plans to demonstrate in one or more wire-based AM processes to enable larger component production at lower cost.

QuesTek’s new 17-4 powders can be used in a wide range of industries, including aerospace, defense, medical, chemical processing and energy. QuesTek’s powder was developed using its proven Integrated Computational Materials Engineering (ICME) technologies and Materials by Design® approach.

QuesTek is in discussions with commercialization partners including alloy producers, metal AM machine manufacturers and service bureaus to license these technologies and accelerate commercial adoption.

The QT 17-4 and QT 17-4+ powders are among a series of alloys QuesTek is developing for high performance, production-quality additive manufacturing applications. More information on QuesTek’s development of materials tailored for additive manufacturing in aluminum, titanium and steel can be found at https://www.questek.com/materials/alloys-for-am/.

QuesTek Innovations LLC is a global leader in Integrated Computational Materials Engineering (ICME) technologies and has used its proprietary Materials by Design® methodology to rapidly design and deploy a family of commercially-available Ferrium® steels being used in demanding applications. For over 20 years, QuesTek has been selected by all branches of the US government and a diverse industrial client base to understand and resolve their most pressing materials challenges. QuesTek’s experience spans the major alloy systems including Al, Mg, Cu, Fe, Co, Ni, Ti, high entropy alloys, metal matrix composites and metallic alloys for additive manufacturing. Headquartered in Evanston, IL USA, QuesTek also has offices in joint venture partnerships in Sweden and Japan.

Contact:
Jeff Grabowski
QuesTek Innovations LLC
847-425-824