Elizabeth Opila Explained

Elizabeth Jane Opila is an American materials scientist who is the Rolls-Royce Commonwealth Professor of Engineering at the University of Virginia. Her research considers the development of materials for extreme environments. She was elected Fellow of the Electrochemical Society in 2013 and the American Ceramic Society in 2014.

Early life and education

Opila earned her bachelor's degree at the University of Illinois Urbana-Champaign, where she studied ceramic engineering.^[1] She moved to the University of California, Berkeley for graduate studies.^[1] Her master's research considered the surface diffusion of high temperature vapors in porous materials.^[2] She joined Massachusetts Institute of Technology as a doctoral researcher.^[3] Her doctoral research considered the chemistry of La_2-xSr_xCuO₄, a high temperature superconductor.^[4] She joined the Glenn Research Center in 1991, where she worked on the shuttle program.^[3]

Research and career

In 2010, Opila joined the University of Virginia as a professor of Materials Science.^[5] She leads the Rolls-Royce University Technology Center for Advanced Materials Systems.^[6] Opila studies ultra-high temperature ceramics, which are used in ball bearings, armor and aerospace. She is particularly interested in the development of materials that facilitate hypersonic travel. To investigate these materials, she creates lab-based experiments that can characterize materials properties at ultra high temperatures, flow rates and in the presence of reactive gases. Characterization involves spectroscopy, microscopy and chemical analysis (e.g. thermochemical properties and changes in weight).

Opila has worked on strategies to increase the temperature tolerances and efficiencies of turbine engine materials.^{[7] [8]} This has involved holding contracts with NASA and the United States Department of Defense.^[9] Environmental barrier coatings can be used to protect ceramics from particulate matter and water vapor, but can corrode in sand, dust and volcanic ash. Opila developed coatings that allow niobium alloys to operature at 1,800 °C. These coatings serve to protect alloys from oxidising. The coatings are made of rare-earth oxides, specifically, high entropy rare earth oxides (HERO). HERO coatings protect the alloys from oxidizing and limit the build up of stress. Stress-build up is minimized by matching the thermal expansion of the coating with the underlying alloys, such that when they expand and contract during temperature changes they do so in the same directions/at the same rate. She combines computation modelling, artificial intelligence and quantum mechanics to identify the best candidates for HERO coatings.

Opila pioneered an undergraduate course on advanced ceramics in 2020.^{[9] [10]}

Selected publications

• Levine. Stanley R. Opila. Elizabeth J. Halbig. Michael C. Kiser. James D. Singh. Mrityunjay. Salem. Jonathan A. January 2002. Evaluation of ultra-high temperature ceramics foraeropropulsion use. Journal of the European Ceramic Society. 22. 14–15. 2757–2767. 10.1016/s0955-2219(02)00140-1. 0955-2219.
• Opila. Elizabeth J.. Hann. Raiford E.. January 1997. Paralinear Oxidation of CVD SiC in Water Vapor. Journal of the American Ceramic Society. 80. 1. 197–205. 10.1111/j.1151-2916.1997.tb02810.x. 2060/19970022609. 31102532 . 0002-7820. free.
• Opila. Elizabeth J.. Hann. Raiford E.. 1997. Paralinear Oxidation of CVD SiC in Water Vapor. Journal of the American Ceramic Society. 80. 1. 197–205. 10.1111/j.1151-2916.1997.tb02810.x. 2060/19970022609. 31102532 . 0002-7820. free.

Awards and honors

• 2013 Elected Fellow of the Electrochemical Society^[11]
• 2014 Elected Fellow of the American Ceramic Society^[12]
• 2020 German Research Foundation Mercatur Fellow^[1]
• 2021 American Ceramic Society Arthur L. Friedberg Award^[13]

Notes and References

1. Web site: Science. Engineering. Mechanical. Hall. Aerospace Engineering Office: Wilsdorf. Hall. Charlottesville. 113 PO Box 400745. 2017-05-02. Elizabeth J. Opila Materials. live. 2022-01-18. University of Virginia School of Engineering and Applied Science. en. https://web.archive.org/web/20200815083623/https://engineering.virginia.edu/faculty/elizabeth-j-opila . 2020-08-15 .
2. Surface diffusion of high temperature vapors in porous media. 1983. English. Elizabeth Jane. Opila. 21657421.
3. Web site: 2020-11-12. The Need for Speed: UVA Engineering Boosts Hypersonic Travel. 2022-01-18. UVA Today. en.
4. The oxygen defect chemistry of La2-xSrxCuO4. 1991. English. Elizabeth Jane. Opila. 25045435.
5. Web site: Elizabeth J. Opila. 2022-01-18. The American Ceramic Society. en-US.
6. Web site: 2018-11-19. From Conserving Art to Making Jet Engines More Durable. 2022-01-18. UVA Today. en.
7. Web site: Hall. Elizabeth Thiel Mather Executive Director of Communications Thornton. Charlottesville. Room C350 351 McCormick Road P. O. Box 400256. 2020-12-14. Advanced Research Projects Agency-Energy Funds UVA-led Team to Develop New Coating for Turbine Engine Materials. 2022-01-18. University of Virginia School of Engineering and Applied Science. en.
8. Web site: Hall. Elizabeth Thiel Mather Executive Director of Communications Thornton. Charlottesville. Room C350 351 McCormick Road P. O. Box 400256. 2021-03-08. Research Expands Material Palette for Ultra-High Temperature Materials. 2022-01-18. University of Virginia School of Engineering and Applied Science. en.
9. Web site: Walker. Karen. 2021-08-16. Elizabeth J. Opila Earns Recognition for Outstanding Contributions to the Ceramic Engineering Discipline. 2022-01-18. University of Virginia School of Engineering and Applied Science. en.
10. Web site: 2020-08-11. New Engineering Degree Program Attracts Students With Purpose and Pragmatism. 2022-01-18. UVA Today. en.
11. Web site: Fellow of The Electrochemical Society. 2022-01-18. ECS. en-US.
12. Web site: The American Ceramic Society announces 2014 Class of Fellows. live. https://web.archive.org/web/20220118231105/https://www.du-co.com/wp-content/uploads/2014/05/ACerS-announces-2014-Class-of-Fellows.pdf . 2022-01-18 .
13. Web site: ACerS/EPDC: Arthur L. Friedberg Ceramic Engineering Tutorial and Lecture. 2022-01-18. The American Ceramic Society. en-US.