Derek Warner joined the School of Civil and Environmental Engineering in October 2007. Prior to this he was a Postdoctoral Research Associate in the Division of Engineering at Brown University, where he worked in the Mechanics of Solids Group. He completed his Ph.D. in Mechanical Engineering at Johns Hopkins University in 2006. During the 2013 academic year, Derek was a Visiting Professor in the Computational Solid Mechanics Laboratory at École polytechnique fédérale de Lausanne in Switzerland.
Derek is the current director of the Cornell Fracture Group. The group conducts both scientific and engineering research aimed at understanding and predicting the deformation and failure of structures. A primary scientific goal of the group is to illuminate and model the underlying physical mechanisms that control the failure of engineering materials. The group's effort in this area supports the group's engineering objective to advance the capability to predict the deformation and failure of structures through the utilization of new knowledge and modeling techniques. Through its research, the Cornell Fracture Group strives to increase the standard of living across the globe by enabling better performing, lower cost, and more sustainable technologies.
- Computational Mechanics
- Computational Solid Mechanics
- Advanced Materials
- Energy and the Environment
- Advanced Materials Processing
- Scientific Computing
- Statistical Mechanics and Molecular Simulation
- Structural Engineering
Solid Mechanics, Deformation and Failure Mechanisms, Computer Modeling
Undergraduate Academic Advising, Undergraduate Research Advising, Graduate Admissions, Faculty Search Committee CEE, IT Advisory Committee for College of Engineering, Web-based Interface Structure Databank, NSF Proposal Review, Conference Symposium Organization
- Aghababaei, R., D H. Warner, J F Molinari. 2016. "Critical length scale controls adhesive wear mechanisms.." Nature communications7: 11816-11816.
- Li, P., D H. Warner, A. Fatemi, N Phan. 2016. "Critical assessment of the fatigue performance of additively manufactured Ti-6Al-4V and perspective for future research." International Journal of Fatigue 85: 130-143.
- Saroukhani, S., L D. Nguyen, K W. Leung, C V. Singh, D H Warner. 2016. "Harnessing atomistic simulations to predict the rate at which dislocations overcome obstacles." Journal of the Mechanics and Physics of Solids 90: 203-214.
- Zamora, R J., K L. Baker, D H Warner. 2015. "Illuminating the chemo-mechanics of hydrogen enhanced fatigue crack growth in aluminum alloys." Acta Materialia 100: 232-239.
- Warner, D H., W A. Curtin, S Qu. 2007. "Rate dependence of crack-tip processes predicts twinning trends in f.c.c. metals.." Nat Mater 6(11): 876-881.
Selected Awards and Honors
- Professor of the Year (Chi-Epsilon Honor Society, Cornell Chapter) 2012
- Most Valuable Professor (Cornell Undergraduate ASCE Superlative) 2012
- U.S. Junior Oberwolfach Fellow 2012
- Presidential Early Career Award 2009
- Daniel M. Lazar '29 Excellence in Teaching Award (College of Engineering) 2011
- BS (Mathematics), Saint Francis University, 2002
- MS (Solid Mechanics), Johns Hopkins University, 2004
- Ph D (Mechanical Engineering), Johns Hopkins University, 2006