| The activation energy for dislocation nucleation at a crack JR Rice, GE Beltz Journal of the Mechanics and Physics of Solids 42 (2), 333-360, 1994 | 332 | 1994 |
| Laminar ceramics that exhibit a threshold strength MP Rao, AJ Sanchez-Herencia, GE Beltz, RM McMeeking, FF Lange Science 286 (5437), 102-105, 1999 | 293 | 1999 |
| Modeling of threading dislocation reduction in growing GaN layers SK Mathis, AE Romanov, LF Chen, GE Beltz, W Pompe, JS Speck Journal of Crystal Growth 231 (3), 371-390, 2001 | 230 | 2001 |
| Scaling laws for the reduction of threading dislocation densities in homogeneous buffer layers JS Speck, MA Brewer, G Beltz, AE Romanov, W Pompe Journal of Applied Physics 80 (7), 3808-3816, 1996 | 190 | 1996 |
| Estimates from atomic models of tension-shear coupling in dislocation nucleation from a crack tip Y Sun, GE Beltz, JR Rice Materials Science and Engineering: A 170 (1-2), 67-85, 1993 | 168 | 1993 |
| Threading dislocation reduction in strained layers AE Romanov, W Pompe, S Mathis, GE Beltz, JS Speck Journal of applied physics 85 (1), 182-192, 1999 | 138 | 1999 |
| Modeling of threading dislocation reduction in growing GaN layers SK Mathis, AE Romanov, LF Chen, GE Beltz, W Pompe, JS Speck physica status solidi (a) 179 (1), 125-145, 2000 | 135 | 2000 |
| Dislocation nucleation at metal-ceramic interfaces GE Beltz, JR Rice Acta metallurgica et materialia 40, S321-S331, 1992 | 127 | 1992 |
| Potential-based and non-potential-based cohesive zone formulations under mixed-mode separation and over-closure. Part I: Theoretical analysis JP McGarry, ÉÓ Máirtín, G Parry, GE Beltz Journal of the Mechanics and Physics of Solids 63, 336-362, 2014 | 118 | 2014 |
| Enhancing the electron mobility of SrTiO3 with strain B Jalan, SJ Allen, GE Beltz, P Moetakef, S Stemmer Applied Physics Letters 98 (13), 2011 | 114 | 2011 |
| Modeling of threading dislocation density reduction in heteroepitaxial layers I. Geometry and crystallography AE Romanov, W Pompe, G Beltz, JS Speck physica status solidi (b) 198 (2), 599-613, 1996 | 101* | 1996 |
| On the continuum versus atomistic descriptions of dislocation nucleation and cleavage in nickel P Gumbsch, GE Beltz Modelling and Simulation in Materials Science and Engineering 3 (5), 597, 1995 | 99 | 1995 |
| Role of crack blunting in ductile versus brittle response of crystalline materials GE Beltz, DM Lipkin, LL Fischer Physical review letters 82 (22), 4468, 1999 | 98 | 1999 |
| The effect of crack blunting on the competition between dislocation nucleation and cleavage LL Fischer, GE Beltz Journal of the Mechanics and Physics of Solids 49 (3), 635-654, 2001 | 95 | 2001 |
| A self-consistent model for cleavage in the presence of plastic flow GE Beltz, JR Rice, CF Shih, L Xia Acta materialia 44 (10), 3943-3954, 1996 | 89 | 1996 |
| An approach to threading dislocation ‘‘reaction kinetics’’ AE Romanov, W Pompe, GE Beltz, JS Speck Applied physics letters 69 (22), 3342-3344, 1996 | 86 | 1996 |
| Atomistic simulation of stacking fault formation in bcc iron A Machová, GE Beltz, M Chang Modelling and Simulation in Materials Science and Engineering 7 (6), 949, 1999 | 78 | 1999 |
| On the nucleation of dislocations at a crystal surface GE Beltz, LB Freund physica status solidi (b) 180 (2), 303-313, 1993 | 74 | 1993 |
| Dislocation nucleation versus cleavage decohesion at crack tips GE Beltz, JR Rice Modeling the deformation of Crystalline Solids, 457-480, 1991 | 68 | 1991 |
| Crack direction effects along copper/sapphire interfaces GE Beltz, JS Wang Acta metallurgica et materialia 40 (7), 1675-1683, 1992 | 66 | 1992 |
Aleksei RomanovITMO UniversityПодтвержден адрес электронной почты в домене niuitmo.ru
