Mesoscale modeling of amorphous metals by shear transformation zone dynamics ER Homer, CA Schuh Acta Materialia 57 (9), 2823-2833, 2009 | 187 | 2009 |
Shear transformation zone dynamics model for metallic glasses incorporating free volume as a state variable L Li, ER Homer, CA Schuh Acta Materialia 61 (9), 3347-3359, 2013 | 157 | 2013 |
Phenomenology of shear-coupled grain boundary motion in symmetric tilt and general grain boundaries ER Homer, SM Foiles, EA Holm, DL Olmsted Acta Materialia 61 (4), 1048-1060, 2013 | 140 | 2013 |
Grain boundary plane orientation fundamental zones and structure-property relationships ER Homer, S Patala, JL Priedeman Scientific reports 5 (1), 15476, 2015 | 112 | 2015 |
Trends in grain boundary mobility: Survey of motion mechanisms ER Homer, EA Holm, SM Foiles, DL Olmsted Jom 66, 114-120, 2014 | 104 | 2014 |
Discovering the building blocks of atomic systems using machine learning: application to grain boundaries CW Rosenbrock, ER Homer, G Csányi, GLW Hart NPJ Computational Materials 3 (1), 29, 2017 | 103 | 2017 |
Cyclic hardening of metallic glasses under Hertzian contacts: Experiments and STZ dynamics simulations CE Packard, ER Homer, N Al-Aqeeli, CA Schuh Philosophical Magazine 90 (10), 1373-1390, 2010 | 87 | 2010 |
Kinetic Monte Carlo study of activated states and correlated shear-transformation-zone activity during the deformation of an amorphous metal ER Homer, D Rodney, CA Schuh Physical Review B 81 (6), 064204, 2010 | 82 | 2010 |
Examining the initial stages of shear localization in amorphous metals ER Homer Acta Materialia 63, 44-53, 2014 | 76 | 2014 |
Nanoscale strength distribution in amorphous versus crystalline metals CE Packard, O Franke, ER Homer, CA Schuh Journal of Materials Research 25 (12), 2251-2263, 2010 | 66 | 2010 |
An RVE procedure for micromechanical prediction of mechanical behavior of dual-phase steel HJ Bong, H Lim, MG Lee, DT Fullwood, ER Homer, RH Wagoner Materials Science and Engineering: A 695, 101-111, 2017 | 57 | 2017 |
An investigation of geometrically necessary dislocations and back stress in large grained tantalum via EBSD and CPFEM LT Hansen, DT Fullwood, ER Homer, RH Wagoner, H Lim, JD Carroll, ... Materials Science and Engineering: A 772, 138704, 2020 | 50 | 2020 |
Hybrid Potts-phase field model for coupled microstructural–compositional evolution ER Homer, V Tikare, EA Holm Computational materials science 69, 414-423, 2013 | 50 | 2013 |
New methods for developing and manufacturing compliant mechanisms utilizing bulk metallic glass ER Homer, MB Harris, SA Zirbel, JA Kolodziejska, H Kozachkov, ... Advanced Engineering Materials 16 (7), 850-856, 2014 | 49 | 2014 |
The role of crystallography and the mechanisms associated with migration of incoherent twin grain boundaries JL Priedeman, DL Olmsted, ER Homer Acta Materialia 131, 553-563, 2017 | 45 | 2017 |
Three-dimensional shear transformation zone dynamics model for amorphous metals ER Homer, CA Schuh Modelling and Simulation in Materials Science and Engineering 18 (6), 065009, 2010 | 44 | 2010 |
Slip band characteristics in the presence of grain boundaries in nickel-based superalloy R Sperry, A Harte, JQ da Fonseca, ER Homer, RH Wagoner, DT Fullwood Acta Materialia 193, 229-238, 2020 | 42 | 2020 |
Machine-Learning informed representations for grain boundary structures ER Homer, DM Hensley, CW Rosenbrock, AH Nguyen, GLW Hart Frontiers in Materials 6, 168, 2019 | 39 | 2019 |
Atomistic survey of grain boundary-dislocation interactions in FCC nickel DW Adams, DT Fullwood, RH Wagoner, ER Homer Computational Materials Science 164, 171-185, 2019 | 39 | 2019 |
Quantifying and connecting atomic and crystallographic grain boundary structure using local environment representation and dimensionality reduction techniques JL Priedeman, CW Rosenbrock, OK Johnson, ER Homer Acta Materialia 161, 431-443, 2018 | 38 | 2018 |