| About this Symposium |
| Meeting |
MS&T24: Materials Science & Technology
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| Symposium
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Thermodynamics of Materials in Extreme Environments
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| Sponsorship |
ACerS Basic Science Division
ACerS Energy Materials and Systems Division
TMS: Chemistry and Physics of Materials Committee
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| Organizer(s) |
Xiaofeng Guo, Washington State University
Kristina Lilova, Arizona State University
Kyle S. Brinkman, Clemson University
Alexandra Navrotsky, Arizona State University
Jake W. Amoroso, Savannah River National Laboratory
Xingbo Liu, West Virginia University
Gustavo Costa, NASA Glenn Research Center |
| Scope |
Thermodynamics controls synthesis, corrosion, degradation, environmental transport, and catalysis processes and forms the fundamental underpinnings of reactivity, transformation, and stability in materials. The developments in energy conversion and storage (including renewables, nuclear energy, and batteries, to name a few active areas) have resulted in increasing need for improved and new materials, including better ways to characterize and study their fundamental properties. The investigation of the thermodynamics of many materials which undergo secondary phase formation under operating conditions raise issues of lifetime and compatibility critical for their application. Extreme conditions such as elevated temperatures and pressures, high radiation fields, and corrosive environments are encountered in nuclear energy and aeronautical and space applications. Such conditions parallel those encountered in the deep Earth and in planetary interiors. Fundamental thermodynamic measurements and computational predictions are required to understand and model the synthesis and use and eventual disposition of energy materials. The proposed symposium will bring together a group of experimental and computational materials scientists focused on predicting and measuring thermodynamic properties of traditional and new materials to be used in extreme environments. |
| Abstracts Due |
05/15/2024 |