Robert O. Ritchie
Robert O. Ritchie
Professor of Materials Science, University of California Berkeley
Verified email at - Homepage
Cited by
Cited by
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
Bioinspired structural materials
UGK Wegst, H Bai, E Saiz, AP Tomsia, RO Ritchie
Nature materials 14 (1), 23-36, 2015
The conflicts between strength and toughness
RO Ritchie
Nature materials 10 (11), 817-822, 2011
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
Tough, bio-inspired hybrid materials
E Munch, ME Launey, DH Alsem, E Saiz, AP Tomsia, RO Ritchie
Science 322 (5907), 1516-1520, 2008
High-entropy alloys
EP George, D Raabe, RO Ritchie
Nature reviews materials 4 (8), 515-534, 2019
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
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
Propagation of short fatigue cracks
S Suresh, RO Ritchie
International metals reviews 29 (1), 445-475, 1984
Mechanisms of fatigue-crack propagation in ductile and brittle solids
RO Ritchie
International journal of Fracture 100, 55-83, 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
Mechanistic fracture criteria for the failure of human cortical bone
RK Nalla, JH Kinney, RO Ritchie
Nature materials 2 (3), 164-168, 2003
On the fracture toughness of advanced materials
ME Launey, RO Ritchie
Advanced Materials 21 (20), 2103-2110, 2009
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
On the mechanistic origins of toughness in bone
ME Launey, MJ Buehler, RO Ritchie
Annual review of materials research 40, 25-53, 2010
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
A damage-tolerant glass
MD Demetriou, ME Launey, G Garrett, JP Schramm, DC Hofmann, ...
Nature materials 10 (2), 123-128, 2011
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
A geometric model for fatigue crack closure induced by fracture surface roughness
S Suresh, RO Ritchie
Metallurgical transactions A 13, 1627-1631, 1982
On the influence of mechanical surface treatments—deep rolling and laser shock peening—on the fatigue behavior of Ti–6Al–4V at ambient and elevated temperatures
RK Nalla, I Altenberger, U Noster, GY Liu, B Scholtes, RO Ritchie
Materials Science and Engineering: A 355 (1-2), 216-230, 2003
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