A fracture-resistant high-entropy alloy for cryogenic applications B Gludovatz, A Hohenwarter, D Catoor, EH Chang, EP George, ... Science 345 (6201), 1153-1158, 2014 | 4779 | 2014 |
Bioinspired structural materials UGK Wegst, H Bai, E Saiz, AP Tomsia, RO Ritchie Nature materials 14 (1), 23-36, 2015 | 4121 | 2015 |
The conflicts between strength and toughness RO Ritchie Nature materials 10 (11), 817-822, 2011 | 3087 | 2011 |
High-entropy alloys EP George, D Raabe, RO Ritchie Nature reviews materials 4 (8), 515-534, 2019 | 2782 | 2019 |
On the relationship between critical tensile stress and fracture toughness in mild steel RO Ritchie, JF Knott, JR Rice Journal of the Mechanics and Physics of Solids 21 (6), 395-410, 1973 | 1925 | 1973 |
Tough, bio-inspired hybrid materials E Munch, ME Launey, DH Alsem, E Saiz, AP Tomsia, RO Ritchie Science 322 (5907), 1516-1520, 2008 | 1845 | 2008 |
Direct mechanical measurement of the tensile strength and elastic modulus of multiwalled carbon nanotubes BG Demczyk, YM Wang, J Cumings, M Hetman, W Han, A Zettl, ... Materials Science and Engineering: A 334 (1-2), 173-178, 2002 | 1503 | 2002 |
Exceptional damage-tolerance of a medium-entropy alloy CrCoNi at cryogenic temperatures B Gludovatz, A Hohenwarter, KVS Thurston, H Bei, Z Wu, EP George, ... Nature communications 7 (1), 10602, 2016 | 1419 | 2016 |
Propagation of short fatigue cracks S Suresh, RO Ritchie International metals reviews 29 (1), 445-475, 1984 | 1084 | 1984 |
Tuning element distribution, structure and properties by composition in high-entropy alloys Q Ding, Y Zhang, X Chen, X Fu, D Chen, S Chen, L Gu, F Wei, H Bei, ... Nature 574 (7777), 223-227, 2019 | 1053 | 2019 |
Mechanisms of fatigue-crack propagation in ductile and brittle solids RO Ritchie International journal of Fracture 100, 55-83, 1999 | 1047 | 1999 |
Mechanisms of fatigue crack propagation in metals, ceramics and composites: role of crack tip shielding RO Ritchie Materials Science and Engineering: A 103 (1), 15-28, 1988 | 1006 | 1988 |
On the fracture toughness of advanced materials ME Launey, RO Ritchie Advanced Materials 21 (20), 2103-2110, 2009 | 902 | 2009 |
Mechanistic fracture criteria for the failure of human cortical bone RK Nalla, JH Kinney, RO Ritchie Nature materials 2 (3), 164-168, 2003 | 841 | 2003 |
Short-range order and its impact on the CrCoNi medium-entropy alloy R Zhang, S Zhao, J Ding, Y Chong, T Jia, C Ophus, M Asta, RO Ritchie, ... Nature 581 (7808), 283-287, 2020 | 837 | 2020 |
Mechanical properties of high-entropy alloys with emphasis on face-centered cubic alloys Z Li, S Zhao, RO Ritchie, MA Meyers Progress in Materials Science 102, 296-345, 2019 | 798 | 2019 |
On the mechanistic origins of toughness in bone ME Launey, MJ Buehler, RO Ritchie Annual review of materials research 40, 25-53, 2010 | 779 | 2010 |
Oxide-induced crack closure: an explanation for near-threshold corrosion fatigue crack growth behavior S Suresh, GF Zamiski, DRO Ritchie Metallurgical Transactions A 12 (8), 1435-1443, 1981 | 779 | 1981 |
Nanoscale origins of the damage tolerance of the high-entropy alloy CrMnFeCoNi ZJ Zhang, MM Mao, J Wang, B Gludovatz, Z Zhang, SX Mao, EP George, ... Nature communications 6 (1), 10143, 2015 | 734 | 2015 |
Functional gradients and heterogeneities in biological materials: Design principles, functions, and bioinspired applications Z Liu, MA Meyers, Z Zhang, RO Ritchie Progress in Materials Science 88, 467-498, 2017 | 713 | 2017 |