| Cell model for nonlinear fracture analysis–I. Micromechanics calibration J Faleskog, X Gao, CF Shih International Journal of Fracture 89, 355-373, 1998 | 447 | 1998 |
| Calibration of Weibull stress parameters using fracture toughness data X Gao, C Ruggieri, RH Dodds Jr International Journal of Fracture 92 (2), 175-200, 1998 | 314 | 1998 |
| Modeling of void growth in ductile solids: effects of stress triaxiality and initial porosity J Kim, X Gao, TS Srivatsan Engineering fracture mechanics 71 (3), 379-400, 2004 | 280 | 2004 |
| Modeling of ductile fracture: significance of void coalescence X Gao, J Kim International journal of solids and structures 43 (20), 6277-6293, 2006 | 273 | 2006 |
| Effects of the stress state on plasticity and ductile failure of an aluminum 5083 alloy X Gao, T Zhang, M Hayden, C Roe International Journal of Plasticity 25 (12), 2366-2382, 2009 | 255 | 2009 |
| On stress-state dependent plasticity modeling: Significance of the hydrostatic stress, the third invariant of stress deviator and the non-associated flow rule X Gao, T Zhang, J Zhou, SM Graham, M Hayden, C Roe International Journal of Plasticity 27 (2), 217-231, 2011 | 253 | 2011 |
| A study on the effect of the stress state on ductile fracture X Gao, G Zhang, C Roe International Journal of Damage Mechanics 19 (1), 75-94, 2010 | 219 | 2010 |
| Simulation of ductile crack growth using computational cells: numerical aspects AS Gullerud, X Gao, RH Dodds Jr, R Haj-Ali Engineering Fracture Mechanics 66 (1), 65-92, 2000 | 181 | 2000 |
| Cell model for nonlinear fracture analysis–II. Fracture-process calibration and verification X Gao, J Faleskog, CF Shih International Journal of Fracture 89, 375-398, 1998 | 163 | 1998 |
| On ductile fracture initiation toughness: effects of void volume fraction, void shape and void distribution X Gao, T Wang, J Kim International Journal of Solids and Structures 42 (18-19), 5097-5117, 2005 | 150 | 2005 |
| On the extension of the Gurson-type porous plasticity models for prediction of ductile fracture under shear-dominated conditions J Zhou, X Gao, JC Sobotka, BA Webler, BV Cockeram International Journal of Solids and Structures 51 (18), 3273-3291, 2014 | 143 | 2014 |
| Constraint effects on the ductile-to-brittle transition temperature of ferritic steels: a Weibull stress model X Gao, RH Dodds International Journal of Fracture 102, 43-69, 2000 | 140 | 2000 |
| Ductile tearing in part-through cracks: experiments and cell-model predictions X Gao, J Faleskog, CF Shih, RH Dodds Jr Engineering fracture mechanics 59 (6), 761-777, 1998 | 130 | 1998 |
| A Weibull stress model to predict cleavage fracture in plates containing surface cracks Gao, Tregoning, Joyce, Link Fatigue & Fracture of Engineering Materials & Structures 22 (6), 481-493, 1999 | 118 | 1999 |
| Modeling of crack growth in ductile solids: a three-dimensional analysis J Kim, X Gao, TS Srivatsan International journal of solids and structures 40 (26), 7357-7374, 2003 | 115 | 2003 |
| Bird strike on a flat plate: Experiments and numerical simulations J Liu, Y Li, X Gao International Journal of Impact Engineering 70, 21-37, 2014 | 108 | 2014 |
| Transferability of elastic–plastic fracture toughness using the Weibull stress approach: significance of parameter calibration C Ruggieri, X Gao, RH Dodds Jr Engineering fracture mechanics 67 (2), 101-117, 2000 | 106 | 2000 |
| Micromechanical modeling of fiber-reinforced composites with statistically equivalent random fiber distribution W Wang, Y Dai, C Zhang, X Gao, M Zhao Materials 9 (8), 624, 2016 | 105 | 2016 |
| The third-type of strain aging and the constitutive modeling of a Q235B steel over a wide range of temperatures and strain rates J Wang, WG Guo, X Gao, J Su International Journal of Plasticity 65, 85-107, 2015 | 97 | 2015 |
| An engineering approach to assess constraint effects on cleavage fracture toughness X Gao, RH Dodds Jr Engineering Fracture Mechanics 68 (3), 263-283, 2001 | 95 | 2001 |
