About this Symposium |
Meeting |
MS&T22: Materials Science & Technology
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Symposium
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High Temperature Oxidation of Metals and Ceramics
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Sponsorship |
TMS Corrosion and Environmental Effects Committee
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Organizer(s) |
Kenneth Kane, Oak Ridge National Laboratory Elizabeth S. Sooby, University Of Texas At San Antonio Patrick T. Brennan, General Electric Research Lavina Backman, U.S. Naval Research Laboratory Kinga A. Unocic, Oak Ridge National Laboratory Richard P. Oleksak, National Energy Technology Laboratory David Alan Shifler, Office of Naval Research Raul B. Rebak, GE Global Research |
Scope |
When exposed to high temperature environments, materials and ceramics can oxidize and corrode. Understanding these oxidation and corrosion mechanisms is key to developing material systems capable of withstanding higher temperatures. These material systems vary widely according to their respective environments, from utilization of thermal barrier coatings (TBCs) and environmental barrier coatings (EBCs) for protecting against combustion environments in gas turbines, to enhancing safety margins during design basis accidents (DBAs) and beyond design basis accidents (BDBAs) by implementing accident tolerant fuel (ATF) cladding, and enabling hypersonic and nuclear fusion applications with ultra-high temperature ceramics (UHTCs).
This symposium covers all aspects regarding high and ultra-high temperature oxidation of metals and ceramics for a variety of applications.
Abstracts are solicited in, but not limited to, the following topics:
• Oxidation of current/novel thermal and environmental barrier coatings
• Response of accident tolerant fuel and claddings to off-normal reactor conditions
• Ultra-high temperature ceramics for hypersonic or fusion applications
• Novel set-ups for conducting oxidation experiments
• Advanced characterization methods for analyzing reaction product formation
• Modelling to simulate high temperature/extreme environments
• Fundamental studies of oxidation and corrosion mechanisms |
Abstracts Due |
05/15/2022 |