Event
MSE Seminar: Dr. Timothy Rupert, JHU
Wednesday, November 5, 2025
3:30 p.m.
Room 2108 Chemical and Nuclear Engineering Building
Sherri Tatum
301-405-5240
statum12@umd.edu
“Complexion engineering enables nanocrystalline alloys that thrive in extreme environments”
Abstract: Nanocrystalline materials are unfortunately often an exercise in futility, as efforts to make them extremely strong often result in embrittlement and microstructural instability. A potential solution lies in the modulation of the local interfacial structure, using what have been termed complexion transitions to improve grain boundary behavior. In this talk, the incorporation of amorphous grain boundary complexions into a nanoscale grain structure is shown to solve many of the major, longstanding limitations of nanocrystalline metals. Notably, the ductility, toughness, strength, thermal stability, and radiation tolerance can all be simultaneously increased with the incorporation of amorphous intergranular films, with demonstrations shown for multiple alloy systems. Moreover, these materials can be fabricated into bulk forms with simple processing routes, demonstrating a clear path to commercial use. Ongoing work focuses on understanding the internal structure of amorphous complexions and on using these features as preferential nucleation sites for the development of heterogeneous nanostructured materials. As a whole, this work lays the foundation for the engineering of defect structure and chemistry to design better nanomaterials.
Bio: Tim Rupert is a Professor of Materials Science and Engineering at Johns Hopkins University and the Director of the Hopkins Extreme Materials Institute (HEMI). Professor Rupert received a B.S./M.S. in Mechanical Engineering from Johns Hopkins University in 2007 and a Ph.D. in Materials Science and Engineering from MIT in 2011. His research focuses on uncovering new structure-property relationships in nanomaterials for structural and energy applications, as well as increasing the reliability and lifetime of these materials. The lab uses a combination of complementary computational and experimental techniques to tackle these challenges. Prof. Rupert has received the NSF CAREER Award, the DOE Early Career Award, the ARO Young Investigator Program Award, the Hellman Fellowship, the ASM International Bradley Stoughton Award for Young Teachers, the AIME Rossiter W. Raymond Memorial Award, the TMS Brimacombe Medal, and was elected as a Fellow of ASM International. He serves as an Editor for Acta Materialia and Scripta Materialia.
