“We are thrilled to be part of the early stages of this exciting development and look forward to unlocking new possibilities with GRX-810,” concluded the VP of aerospace and defense. Shepard explained that collaborating with NASA on this material emphasizes 3D Systems’ dedication to advancing the limits of additive manufacturing and facilitating the creation of cutting-edge aerospace components. Michael Shepard, vice president of aerospace & defense segment at 3D Systems, stated, “The successful verification of the reported NASA GRX-810 properties is a testament to the incredible potential of this new super alloy, not only in its performance but in its capability to be produced repeatably.” Dr. This significant achievement demonstrates the material’s performance across a broad range of equipment and processing parameters and paves the way for its use in a vast array of aerospace components requiring superior performance compared to conventional nickel-based superalloys.ĭr. This makes GRX-810 an excellent material for critical components such as rocket engines, turbine blades, and exhaust nozzles.ģD Systems has effectively processed and tested the high-temperature mechanical properties of GRX-810 utilizing its Direct metal printing (DMP) additive manufacturing platform. The superalloy’s oxide dispersion reinforcing mechanism affords it a combination of strength, ductility, creep life, and heat resistance that is unmatched. The NASA-developed GRX-810 metal 3D printing material has the potential to revolutionize the aerospace industry. This innovative oxide dispersion-strengthened alloy possesses exceptional mechanical properties and temperature resistance, making it ideal for aerospace applications. 3D Systems, a US-based provider of solutions for additive manufacturing, has announced the successful verification of properties for GRX-810, NASA‘s new laser powder bed fusion superalloy.
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