Development of a Physically-Based Creep Model Incorporating ETA Phase Evolution for Nickel-Base Superalloys Email Page
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Performer: Michigan Technological University
Alloy 20, Widmanstätten microstructure, creep
Alloy 20, Widmanstätten microstructure, creep
Website: Michigan Technological University
Award Number: FE0027822
Project Duration: 08/15/2016 – 08/14/2019
Total Award Value: $399,996
DOE Share: $399,996
Performer Share: $0
Technology Area: University Training and Research
Key Technology: High Performance Materials
Location: Houghton, Michigan

Project Description

The project will develop a physically based creep model for Nimonic 263 that synthesizes known creep behavior based on gamma prime strengthening with a new understanding of the effects of eta phase on creep performance at long service times in fossil energy power plants. The project will (1) develop heat treatments for commercial Nimonic 263 to obtain a mixture of both eta and γ′ phases prior to creep testing, with the γ′ distribution being as close to commercial Nimonic 263 as possible, (2) conduct creep tests on these materials at the Electric Power Research Institute (EPRI) (3) fully characterize microstructures and deformation mechanisms during creep for all three alloys (standard Nimonic 263, Nimonic 263 heat‐treated to contain eta + γ′, and the Michigan Tech modified Nimonic 263 alloy that contains only eta.), and use the knowledge gained in (2) and (3) to develop and validate a physically‐based creep model that synthesizes known gamma prime creep behavior with a new understanding of the effects of eta phase on creep performance.

Project Benefits

The results obtained in this project will enhance life prediction, component design, and alloy selection for advanced fossil-energy power plants.

Contact Information

Federal Project Manager Omer R. Bakshi: omer.bakshi@netl.doe.gov
Technology Manager Briggs White: briggs.white@netl.doe.gov
Principal Investigator Walter Milligan: milligan@mtu.edu

 

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