| Experimental observations of stress-driven grain boundary migration TJ Rupert, DS Gianola, Y Gan, KJ Hemker Science 326 (5960), 1686-1690, 2009 | 653 | 2009 |
| Sliding wear of nanocrystalline Ni–W: structural evolution and the apparent breakdown of Archard scaling TJ Rupert, CA Schuh Acta Materialia 58 (12), 4137-4148, 2010 | 364 | 2010 |
| A high-entropy alloy with hierarchical nanoprecipitates and ultrahigh strength Z Fu, L Jiang, JL Wardini, BE MacDonald, H Wen, W Xiong, D Zhang, ... Science advances 4 (10), eaat8712, 2018 | 305 | 2018 |
| Manipulating the interfacial structure of nanomaterials to achieve a unique combination of strength and ductility A Khalajhedayati, Z Pan, TJ Rupert Nature communications 7 (1), 10802, 2016 | 263 | 2016 |
| Enhanced solid solution effects on the strength of nanocrystalline alloys TJ Rupert, JC Trenkle, CA Schuh Acta Materialia 59 (4), 1619-1631, 2011 | 248 | 2011 |
| Grain boundary relaxation strengthening of nanocrystalline Ni–W alloys TJ Rupert, JR Trelewicz, CA Schuh Journal of Materials Research 27 (9), 1285-1294, 2012 | 184 | 2012 |
| Grain boundary complexion transitions PR Cantwell, T Frolov, TJ Rupert, AR Krause, CJ Marvel, GS Rohrer, ... Annual Review of Materials Research 50 (1), 465-492, 2020 | 138 | 2020 |
| Amorphous intergranular films as toughening structural features Z Pan, TJ Rupert Acta Materialia 89, 205-214, 2015 | 124 | 2015 |
| High-temperature stability and grain boundary complexion formation in a nanocrystalline Cu-Zr alloy A Khalajhedayati, TJ Rupert JOM 67 (12), 2788-2801, 2015 | 115 | 2015 |
| Grain boundary complexions and the strength of nanocrystalline metals: Dislocation emission and propagation V Turlo, TJ Rupert Acta Materialia 151, 100-111, 2018 | 96 | 2018 |
| Materials selection rules for amorphous complexion formation in binary metallic alloys JD Schuler, TJ Rupert Acta Materialia 140, 196-205, 2017 | 96 | 2017 |
| Strain localization in a nanocrystalline metal: Atomic mechanisms and the effect of testing conditions TJ Rupert Journal of applied physics 114 (3), 2013 | 86 | 2013 |
| Effect of grain boundary character on segregation-induced structural transitions Z Pan, TJ Rupert Physical Review B 93 (13), 134113, 2016 | 85 | 2016 |
| The role of complexions in metallic nano-grain stability and deformation TJ Rupert Current Opinion in Solid State and Materials Science 20 (5), 257-267, 2016 | 81 | 2016 |
| Abrasive wear response of nanocrystalline Ni–W alloys across the Hall–Petchbreakdown TJ Rupert, W Cai, CA Schuh Wear 298, 120-126, 2013 | 79 | 2013 |
| Nanocrystalline Al-Mg with extreme strength due to grain boundary doping SC Pun, W Wang, A Khalajhedayati, JD Schuler, JR Trelewicz, TJ Rupert Materials Science and Engineering: A 696, 400-406, 2017 | 76 | 2017 |
| Uncovering the influence of common nonmetallic impurities on the stability and strength of a Σ5 (310) grain boundary in Cu Z Huang, F Chen, Q Shen, L Zhang, TJ Rupert Acta Materialia 148, 110-122, 2018 | 73 | 2018 |
| Damage nucleation from repeated dislocation absorption at a grain boundary Z Pan, TJ Rupert Computational Materials Science 93, 206–209, 2014 | 69 | 2014 |
| Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni TJ Rupert, CA Schuh Philosophical magazine letters 92 (1), 20-28, 2012 | 69 | 2012 |
| Combined effects of nonmetallic impurities and planned metallic dopants on grain boundary energy and strength Z Huang, F Chen, Q Shen, L Zhang, TJ Rupert Acta Materialia 166, 113-125, 2019 | 61 | 2019 |
Daniel S. GianolaProfessor of Materials在 engr.ucsb.edu 的电子邮件经过验证
