Publications
Found 36 results
Author Title Type [ Year
] Filters: First Letter Of Last Name is N [Clear All Filters]
"Development of geometrically necessary dislocation density and micromechanical fields in solid state thermal cycle." Journal of Materials Research and Technology 36 (2025): 2229-2242.
"Diffuse electron scattering reveals kinetic frustration as origin of order in CoCrNi medium entropy alloy." Acta Materialia 268 (2024): 119753.
"Microplasticity in polycrystalline materials from thermal cycling." Computational Mechanics (2024).
"Role of microstructure on the development of local orientation gradients in polycrystals." Journal of Materials Research and Technology 33 (2024): 168-179.
"Integrating in-situ multi-modal characterizations with signatures to investigate localized deformation." Materials Characterization 205 (2023): 113332.
"A machine learning model to predict yield surfaces from crystal plasticity simulations." International Journal of Plasticity 161 (2023): 103507.
"Three-dimensional shape and stress field of a deformation twin in magnesium." Acta Materialia 250 (2023): 118845.
"Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields." Scientific Data 9 (2022): 460.
"Determination of minimal energy facet structures in Σ3 and Σ9 grain boundaries: Experiment and simulation." Materialia 5 (2019): 100221.
"Microstructure insensitive twinning: A statistical analysis of incipient twins in high-purity titanium." Materialia 6 (2019): 100303.
"Modeling of trans-grain twin transmission in AZ31 via a neighborhood-based viscoplastic self-consistent model." International Journal of Plasticity 117 (2019): 21-32.
"Origin of plastic anisotropy in (ultra)-fine-grained Mg–Zn–Zr alloy processed by isothermal multi-step forging and rolling: Experiments and modeling." Materials Science and Engineering: A 713 (2018): 81-93.
"Modeling the Effect of Alloying Elements in Magnesium on Deformation Twin Characteristics." Magnesium Technology 2017 (2017).
"Strain fields induced by kink band propagation in Cu-Nb nanolaminate composites." Acta Materialia 133 (2017): 303-315.
"Tensile behavior and flow stress anisotropy of accumulative roll bonded Cu-Nb nanolaminates." Applied Physics Letters 108 (2016): 051903.
"Bulk texture evolution of nanolamellar Zr–Nb composites processed via accumulative roll bonding." Acta Materialia 92 (2015): 97-108.
"Enhanced plasticity via kinking in cubic metallic nanolaminates." Advanced Engineering Materials 17 (2015): 781-785.
"A study of microstructure-driven strain localizations in two-phase polycrystalline HCP/BCC composites using a multi-scale model." International Journal of Plasticity 74 (2015): 35-57.
"The suppression of instabilities via biphase interfaces during bulk fabrication of nanograined Zr." Materials Research Letters 3 (2015): 50-57.
"A multi-scale model for texture development in Zr/Nb nanolayered composites processed by accumulative roll bonding." Journal of Materials Science 63 (2014): 012170.
"Processing and deformation behavior of bulk Cu–Nb nanolaminates." Metallography, Microstructure, and Analysis 3 (2014): 470-476.
"Stochastic modeling of twin nucleation in polycrystals: an application in hexagonal close-packed metals." International Journal of Plasticity 56 (2014): 119-138.
"Texture evolution in two-phase Zr/Nb lamellar composites during accumulative roll bonding." International Journal of Plasticity 57 (2014): 16-28.
"Anomalous basal slip activity in zirconium under high-strain deformation." Materials Research Letters 1 (2013): 133-140.
"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.