Publications
Found 231 results
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High-strength and thermally stable bulk nanolayered composites due to twin-induced interfaces." Nature Communications 4 (2013): 1696.
"Interface-driven microstructure development and ultra high strength of bulk nanostructured Cu-Nb multilayers fabricated by severe plastic deformation." Journal of Materials Research 28 (2013): 1799-1812.
"Interface-driven microstructure development and ultra high strength of bulk nanostructured Cu-Nb multilayers fabricated by severe plastic deformation." Journal of Materials Research 28 (2013): 1799-1812.
"Interface-driven microstructure development and ultra high strength of bulk nanostructured Cu-Nb multilayers fabricated by severe plastic deformation." Journal of Materials Research 28 (2013): 1799-1812.
"Interface-driven microstructure development and ultra high strength of bulk nanostructured Cu-Nb multilayers fabricated by severe plastic deformation." Journal of Materials Research 28 (2013): 1799-1812.
"Meso-scale modeling the orientation and interface stability of Cu/Nb-layered composites by rolling." JOM 65 (2013): 431-442.
"Meso-scale modeling the orientation and interface stability of Cu/Nb-layered composites by rolling." JOM 65 (2013): 431-442.
"Meso-scale modeling the orientation and interface stability of Cu/Nb-layered composites by rolling." JOM 65 (2013): 431-442.
"Meso-scale modeling the orientation and interface stability of Cu/Nb-layered composites by rolling." JOM 65 (2013): 431-442.
"Modeling the texture evolution of Cu/Nb layered composites during rolling." International Journal of Plasticity 49 (2013): 71-84.
"Modeling the texture evolution of Cu/Nb layered composites during rolling." International Journal of Plasticity 49 (2013): 71-84.
"Modeling the texture evolution of Cu/Nb layered composites during rolling." International Journal of Plasticity 49 (2013): 71-84.
"Modeling the texture evolution of Cu/Nb layered composites during rolling." International Journal of Plasticity 49 (2013): 71-84.
"Optimum high temperature strength of two-dimensional nanocomposites." Applied Physics Letters Materials 1 (2013): 052103.
"Optimum high temperature strength of two-dimensional nanocomposites." Applied Physics Letters Materials 1 (2013): 052103.
"Optimum high temperature strength of two-dimensional nanocomposites." Applied Physics Letters Materials 1 (2013): 052103.
"Optimum high temperature strength of two-dimensional nanocomposites." Applied Physics Letters Materials 1 (2013): 052103.
"Radiation damage tolerant nanomaterials." Materials Today 16 (2013): 443-449.
"Radiation damage tolerant nanomaterials." Materials Today 16 (2013): 443-449.
"Thermal stability of Cu–Nb nanolamellar composites fabricated via accumulative roll bonding." Philosophical Magazine 93 (2013): 718-735.
"Twinnability of bimetal interfaces in nanostructured composites." Materials Research Letters 1 (2013): 89-95.
"A wedge-mounting technique for nanoscale electron backscatter diffraction." Journal of Applied Physics 113 (2013): 094304.
"A wedge-mounting technique for nanoscale electron backscatter diffraction." Journal of Applied Physics 113 (2013): 094304.
"Atomic-level study of twin nucleation from fcc/bcc interfaces in nanolamellar composites." Applied Physics Letters 100 (2012): 011911.
"Atomic-scale study of nucleation of dislocations from fcc–bcc interfaces." Acta Materialia 60 (2012): 2855-2865.
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