| Project Detail |
Current Ni-based alloys used in turbine blade applications operate at 1100°C. This project seeks to develop two classes (Ni) alloys that can continuously operate at 1300°C with coatings, enabling gas turbine inlets of 1800°C or higher. Temperature increases can be achieved through the use of refractory alloys, including molybdenum, niobium, tungsten, and tantalum. Oak Ridge National Laboratory (ORNL) will provide data on alloys and coatings developed by ULTIMATE teams. ORNL will supply technical performance target data, including room temperature and 1300°C mechanical properties, post-exposure mechanical properties for coatings, and physical properties including thermal expansion and thermal conductivity. Additionally, ORNL will provide state-of-the-art characterization of as-received and post-test microstructure of alloys and coatings to assist in interpreting results. Facilities include high temperature furnaces for 1700°C oxidation exposures and frames for mechanical properties testing of creep (deformation) and tensile properties using small- or full-scale specimens. ORNL aims to coordinate with ULTIMATE teams to deliver data within 4 weeks of receipt of specimens for most of the target experiments.
Potential Impact:
Combining development of new ultrahigh temperature materials with compatible coatings and manufacturing technologies has the potential to increase gas turbine efficiency up to 7%, which will significantly reduce wasted energy and carbon emissions. |
