Jean-charles Stinville

For More Information

• Stinville Research Group (ResearchGate)
• AdvancedExperiment (YouTube Channel)
• Google Scholar Profile
• Stinville Group website

Education

• Ph.D., Solid Mechanics, Materials Science and Structures Mechanics - Ecole Nationale Supérieure de Mécanique et Aérotechnique (ISAE –ENSMA) - University of Poitiers (2010)
• M.Sc., Materials Science and Mechanical Engineering - Ecole Nationale Supérieure de Mécanique et Aérotechnique (ISAE –ENSMA) - University of Poitiers (2006)
• M. Eng., Aeronautics, Computer Science, Materials Science and Mechanics - Ecole Nationale Supérieure de Mécanique et Aérotechnique (ISAE –ENSMA) (2006)

Biography

Dr. Jean-Charles Stinville studied in France, where he was a first generation college student. He holds a Master of Engineering in Aeronautics, Materials Science, Computer Science and Mechanics, a Master of Science in Materials Science and Mechanical Engineering, and a Ph.D. in Solid Mechanics, Materials Science and Mechanical Engineering. His Ph.D. work on the mechanical properties of plasma treated stainless steels for nuclear application has been awarded with the highest academic distinction in the French academic system. In 2012, he joined the research group of T.M. Pollock at the University of California Santa Barbara, where he became a Specialist in 2015. His research interests include the mechanical and environmental performance of metallic materials for high temperature, energy, and environmental applications. As a Specialist in the Materials Department at the University of California Santa Barbara, he has led efforts around experimental development of in-situ (SEM) mechanical characterization techniques. He holds appointments in the Materials Science and Engineering Department and the Materials Research Laboratory at the UIUC. His research focuses, amongst others, on the characterization of deformation processes for mechanical properties prediction and design of novel metallic materials.

Academic Positions

• Assistant professor - University of Illinois at Urbana-Champaign (2021)
• Specialist - University of California Santa Barbara (2019-2021)
• Associate Specialist - University of California Santa Barbara (2015-2019)
• Postdoctoral researcher -Ecole de Technologie Supérieure (Canada) / University of California Santa Barbara (2010-2015)
• Graduate student - Ecole Nationale Supeérieure de Mécanique et Aérotechnique (ISAE –ENSMA) - University of Poitiers (2006-2010)

Resident Instruction

• MSE 529 - Hard Materials Seminars
• MSE 598 - Materials Informatics
• MSE 443 - Design of Engineering Alloys
• MSE 405 - Microstructure Determination

Research Interests

• Cryogenic materials
• Deformation processes and Mechanical properties
• In-situ characterization
• High-temperature materials
• Electron microscopy
• Materials in extreme environments
• Sustainable metallurgy

Research Topics

• Data Science & Accelerated Materials Discovery
• Energy & Environment
• Infrastructure
• Manufacturing
• Mechanical Properties and Materials for Extreme Conditions

Selected Articles in Journals

• J.C. Stinville, M.A. Charpagne, A. Cervellon, S. Hemery, F. Wang, P.G. Callahan, V. Valle, T.M. Pollock. On the Origins of Fatigue Strength in Crystalline Metallic Materials. Science, 2022.
• C. Bean, F. Wang, M.A. Charpagne, P. Villechaise, V. Valle, S.R. Agnew, D.S. Gianola, T.M. Pollock, J.C. Stinville. Heterogeneous Slip Localization in an Additively Manufactured 316L Stainless Steel. International Journal of Plasticity, 2022.
• R.L. Black, T. Garbowski, C. Bean, A.L. Eberle, S. Nickell, D. Texier, V. Valle, J.C. Stinville. High-Throughput High-Resolution Digital Image Correlation Measurements by Multi-Beam SEM Imaging.Experimental Mechanics, 2023.
• R. Sidharth, J.C. Stinville, H. Sehitoglu. Fatigue and fracture of shape memory alloys in the nanoscale: An in-situ TEM study. Scripta Materialia, 2023.
• J.C. Stinville, M.A. Charpagne, R. Maas, H. Proudhon, W. Ludwig, P.G. Callahan, F. Wang, I.J. Beyerlein, M.P. Echlin, T.M.Pollock. Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches. Annual Review of Materials Research, 2023.
• C. Bean, J.C. Stinville, A. Naït-Ali, Z. Wu, F. Sun, F. Prima, S. H ́emery. Microstructural statistics for low-cycle fatigue crack initiation in α+β titanium alloys: A microstructure based RVE assessment. International of Fatigue, 2023.
• D. Texier, J. Milanese, M. Jullien, J. Genee, J.-C. Passieux, D. Bardel, E. Andrieu, M. Legros, J.C. Stinville. Strain localization in Alloy 718: from room temperature to 650°C. Acta Materialia, 2024.
• D. Anjaria, M. Heczko, R. L. Black, C. Bean, D. Texier, V. Valle, M. J. Mills, D. C. Pagan, J.C. Stinville. Plastic Delocalization at Cryogenic Temperatures in a Nickel-based Superalloy, Acta Materialia, 2024.

Teaching Honors

• Teacher Ranked as Excellent (Outstanding) by Their Students (2023)

Research Honors

• 2024 Kent D. Peaslee Junior Faculty Award (2024)
• 2024 Hetényi Award (best research paper published in Experimental Mechanics in 2023) (2024)
• NSF Career ( 2024)
• ACS New direction award (2023)
• 2021 JOM Editor’s Choice (2021)
• Best Paper Award Superalloys2018 (2018)
• 2018 Hetényi Award (best research paper published in Experimental Mechanics in 2016) (2018)