Theses most similar to Improvement in mechanical properties through structural hierarchies in bio-inspired materials (Sen, Dipanjan, 1980-; 2011) read it
Phenomenology and kinematics of discrete plastic deformation events in amorphous silicon : atomistic simulation using the Stillinger-Weber potential
Demkowicz, Michael J. (Michael John), 1977- (2004)
- Advisor: Ali S. Argon
- Department of Mechanical Engineering
Mechanisms of plastic deformation in amorphous silicon by atomistic simulation using the Stillinger-Weber potential
Demkowicz, Michael J. (Michael John), 1977- (2005)
- Advisor: Ali S. Argon
- Department of Mechanical Engineering
- Advisor: Rohan Abeyaratne
- Department of Mechanical Engineering
Molecular dynamics simulation of mechanical behavior of nanoporous copper foams
Cantrell, Charles (Charles G.) (2006)
- Advisor: Sidney Yap
- Department of Materials Science and Engineering
Modeling the deformation and failure behavior of FCC and HCP nanocrystalline materials
Wei, Yuji (2006)
- Advisor: Lallit Anand
- Department of Mechanical Engineering
Multi-paradigm modeling of mode I&II dynamic fracture mechanisms in single crystal silicon
Cohen, Alan, S. B. (2008)
- Advisor: Markus Buehler
- Department of Mechanical Engineering
Hierarchical and size dependent mechanical properties of silica and silicon nanostructures inspired by diatom algae
García, Andre Phillipé (2010)
- Advisor: Markus J. Buehler
- Department of Civil and Environmental Engineering
Multi-scale mechanics of monolayer graphene membranes : elasticity, fracture, and mechanochemistry
Kumar, Sandee (2015)
- Advisor: David M. Parks
- Department of Mechanical Engineering
Rational manipulation of substrate-supported graphene by heterogeneity of substrate surface and material composition
Al-Mulla, Talal (2017)
- Advisor: Markus J. Buehler
- Department of Civil and Environmental Engineering
Modeling the mechanical behavior of amorphous metals by shear transformation zone dynamics
Homer, Eric Richards, 1980- (2010)
- Advisor: Christopher A. Schuh
- Department of Materials Science and Engineering