Researchers 3D print new lightweight alloy for ultrahot gas turbines

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A 3D printer at the Manufacturing Demonstration Facility, seen here as it creates objects using electron beam melting, was used to print an unusual crack-free alloy for use in turbines that operate at extreme temperatures. Credit: Saket Thapliyal/ORNL, U.S. Dept. of Energy

Researchers at Oak Ridge National Laboratory and the National Energy Technology Laboratory have developed and 3D printed the lightest crack-free alloy capable of operating without melting at temperatures above 2,400 degrees Fahrenheit.

This milestone could enable additively manufactured turbine blades to better handle extreme temperatures, reducing the carbon footprint of gas turbine engines such as those used in airplanes.

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The latest significant advancement combines seven elements in a niobium-rich, complex concentrated alloy whose melting point is at least 48% higher than superalloys of nickel and cobalt previously developed at ORNL. Researchers fine-tuned the electron beam melting process to print test parts for the novel alloy.

“No one has been able to develop and print alloys with such a high melting temperature and low density without cracks before,” said ORNL’s Saket Thapliyal. While metals such as tungsten can take the heat, they would add too much weight to an airplane. “This is significant. We’re making something lighter that can hold its structural integrity at ultra-high temperatures.”

Provided by
Oak Ridge National Laboratory


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Researchers 3D print new lightweight alloy for ultrahot gas turbines (2024, October 17)
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