A new alloy developed by NASA for AM parts that can withstand extreme temperatures of rocket engines.

Until recently, additive manufacturing (AM) materials faced significant hurdles in producing engine components for spaceflight. The primary limitation was the lack of affordable metal alloys capable of withstanding the extreme temperatures encountered during space missions. Traditionally, only expensive alloys were viable for engine parts—until NASA’s Glenn Research Center in Cleveland, Ohio, introduced the groundbreaking GRX-810 alloy.

America Makes, Youngstown, Ohio, and the National Center for Defense Manufacturing and Machining (NCDMM) have announced a new open project call funded by the Office of the Under Secretary of Defense, Manufacturing Technology Office (OSD ManTech) worth a total of $1.7M. 

Each year since 1965, MPIF has sponsored an awards competition in which parts fabricators among our member companies are invited to submit components that epitomize the possibilities inherent in this metal-forming technology.

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Dalhousie University is collaborating with Defence Research and Development Canada (DRDC) to enhance operational capabilities. This partnership focuses on advanced additive manufacturing techniques to develop critical submarine components and the necessary production processes.

A LIFT Off webinar will be presented on August 27 by Lockheed Martin Corporation, focusing on the critical role of materials development and testing in advancing hypersonic technologies and systems built for extreme environments.

Real-world examples of the building block approach to materials testing - covering everything from thermal protection systems to propulsion and structural components - essential to the success of next-generation hypersonic vehicles will be covered. Learn how industry, scientists, and engineers are collaborating to overcome complex material challenges and accelerate innovation.

Webinar Highlights:

• Insight into how materials are tested and validated for extreme heat, pressure, and mechanical stress
• Emphasis on the value of cross-disciplinary collaboration in solving the toughest engineering problems of our time
• Exploration of key enabling technologies such as:
  • Refractory Metals
  • Nickel-Based Alloys
  • Additive Manufacturing
  • Carbon Fiber Composites
  • Ceramic Matrix Composites

Don’t miss this opportunity to gain insights from experts at Lockheed Martin and learn how the future of hypersonics is being shaped through rigorous testing and strategic collaboration.

Register Now to secure your complimentary spot!