| An object-oriented finite element framework for multiphysics phase field simulations MR Tonks, D Gaston, PC Millett, D Andrs, P Talbot Computational Materials Science 51 (1), 20-29, 2012 | 376 | 2012 |
| Stabilizing nanocrystalline materials with dopants PC Millett, RP Selvam, A Saxena Acta Materialia 55 (7), 2329-2336, 2007 | 288 | 2007 |
| Molecular dynamics simulations of grain size stabilization in nanocrystalline materials by addition of dopants PC Millett, RP Selvam, A Saxena Acta materialia 54 (2), 297-303, 2006 | 137 | 2006 |
| Phase field modeling of void nucleation and growth in irradiated metals S Rokkam, A El-Azab, P Millett, D Wolf Modelling and simulation in materials science and engineering 17 (6), 064002, 2009 | 136 | 2009 |
| Atomistic modeling of intrinsic and radiation-enhanced fission gas (Xe) diffusion in UO2±x: Implications for nuclear fuel performance modeling DA Andersson, P Garcia, XY Liu, G Pastore, M Tonks, P Millett, B Dorado, ... Journal of Nuclear Materials 451 (1-3), 225-242, 2014 | 127 | 2014 |
| In-situ atomic-scale observation of irradiation-induced void formation W Xu, Y Zhang, G Cheng, W Jian, PC Millett, CC Koch, SN Mathaudhu, ... Nature communications 4 (1), 2288, 2013 | 125 | 2013 |
| Phase-field simulation of irradiated metals: Part I: Void kinetics PC Millett, A El-Azab, S Rokkam, M Tonks, D Wolf Computational materials science 50 (3), 949-959, 2011 | 125 | 2011 |
| Atomistic simulation of grain boundary energetics–Effects of dopants PC Millett, RP Selvam, S Bansal, A Saxena Acta Materialia 53 (13), 3671-3678, 2005 | 109 | 2005 |
| Grain size effect on deformation mechanisms of nanocrystalline bcc metals GM Cheng, WW Jian, WZ Xu, H Yuan, PC Millett, YT Zhu Materials Research Letters 1 (1), 26-31, 2013 | 99 | 2013 |
| Phase-field simulation of irradiated metals: Part II: Gas bubble kinetics PC Millett, A El-Azab, D Wolf Computational Materials Science 50 (3), 960-970, 2011 | 85 | 2011 |
| Void nucleation and growth in irradiated polycrystalline metals: a phase-field model PC Millett, S Rokkam, A El-Azab, M Tonks, D Wolf Modelling and simulation in materials science and engineering 17 (6), 064003, 2009 | 84 | 2009 |
| Phase-field simulation of thermal conductivity in porous polycrystalline microstructures PC Millett, D Wolf, T Desai, S Rokkam, A El-Azab Journal of Applied Physics 104 (3), 2008 | 72 | 2008 |
| Deformation-twin-induced grain boundary failure Y Zhang, PC Millett, M Tonks, B Biner Scripta Materialia 66 (2), 117-120, 2012 | 71 | 2012 |
| Meso-scale modeling of the influence of intergranular gas bubbles on effective thermal conductivity PC Millett, M Tonks Journal of Nuclear Materials 412 (3), 281-286, 2011 | 69 | 2011 |
| A review on models and simulations of membrane formation via phase inversion processes Y Tang, Y Lin, DM Ford, X Qian, MR Cervellere, PC Millett, X Wang Journal of membrane science 640, 119810, 2021 | 66 | 2021 |
| Phase-field simulation of intergranular bubble growth and percolation in bicrystals PC Millett, MR Tonks, SB Biner, L Zhang, K Chockalingam, Y Zhang Journal of Nuclear Materials 425 (1-3), 130-135, 2012 | 66 | 2012 |
| Computer modeling of tornado forces on buildings RP Selvam, PC Millett Wind & structures 6 (3), 209-220, 2003 | 66 | 2003 |
| Analysis of the elastic strain energy driving force for grain boundary migration using phase field simulation M Tonks, P Millett, W Cai, D Wolf Scripta Materialia 63 (11), 1049-1052, 2010 | 62 | 2010 |
| Improving grain boundary sliding resistance with segregated dopants PC Millett, RP Selvam, A Saxena Materials Science and Engineering: A 431 (1-2), 92-99, 2006 | 61 | 2006 |
| Multiscale development of a fission gas thermal conductivity model: Coupling atomic, meso and continuum level simulations MR Tonks, PC Millett, P Nerikar, S Du, D Andersson, CR Stanek, ... Journal of Nuclear Materials 440 (1-3), 193-200, 2013 | 60 | 2013 |
Michael R TonksMaterials Science and Engineering, University of Florida在 ufl.edu 的电子邮件经过验证
