Publications
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The importance of cross-slip in high-rate deformation." Modelling and Simulation in Materials Science and Engineering 15 (2007): 675-690.
"Nucleation of elementary and twinning dislocations at a twin boundary in hexagonal close-packed crystals." Modelling and Simulation in Materials Science and Engineering 20 (2012): 024001.
"Reactions of lattice dislocations with grain boundaries in Mg: implications on the micro scale from atomic-scale calculations." International Journal of Plasticity 56 (2014): 156-172.
"Structure and property of interfaces in ARB Cu/Nb laminated composites." JOM 64 (2012): 1208-1217.
"Interface dislocation patterns and dislocation nucleation in face-centered-cubic and body-centered-cubic bicrystal interfaces." International Journal of Plasticity 53 (2014): 40-55.
"Dislocation motion in high strain-rate deformation." Philosophical Magazine 87 (2007): 2263-2279.
"Characterizing interface dislocations by atomically informed Frank-Bilby theory." Journal of Materials Research 28 (2013): 1646-1657.
"Modeling interface-dominated mechanical behavior of nanolayered crystalline composites." JOM 66 (2014): 102-113.
"Neutron reflectometry investigations of interfacial structures of Ti/TiN layers deposited by magnetron sputtering." Thin Solid Films 616 (2016): 399-407.
"Embedding strain-rate sensitivities of multiple deformation mechanisms to predict the behavior of a precipitate-hardened WE43 alloy under a wide range of strain rates." Mechanics of Materials 187 (2023): 104843.
"An overview of modeling damage evolution in materials." In Damage Prognosis: For Aerospace, Civil and Mechanical Systems, 13-59. John Wiley & Sons, Ltd, 2005.
"Boundary characterization using 3D mapping of geometrically necessary dislocations in AM Ta microstructure." Journal of Materials Science 57 (2022): 9885-9902.
"Subgrain geometrically necessary dislocation density mapping in spalled Ta in three dimensions." Acta Materialia 244 (2023): 118366.
"Three-dimensional maps of geometrically necessary dislocation densities in additively manufactured Ni-based superalloy IN718." International Journal of Plasticity 131 (2020): 102709.
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