| Ab initio calculations of mechanical properties: Methods and applications J Pokluda, M Černý, M Šob, Y Umeno Progress in Materials Science 73, 127-158, 2015 | 162 | 2015 |
| Micromechanisms of fracture and fatigue: in a multi-scale context J Pokluda, P Šandera Springer Science & Business Media, 2010 | 132 | 2010 |
| Calculations of theoretical strength: State of the art and history J Pokluda, M Černý, P Šandera, M Šob Journal of computer-aided materials design 11, 1-28, 2004 | 128 | 2004 |
| Near‐threshold behaviour of shear‐mode fatigue cracks in metallic materials J Pokluda, R Pippan, T Vojtek, A Hohenwarter Fatigue & Fracture of Engineering Materials & Structures 37 (3), 232-254, 2014 | 90 | 2014 |
| Ab initio calculations of ideal tensile strength and mechanical stability in copper M Cerny, M Šob, J Pokluda, P Šandera Journal of Physics: Condensed Matter 16 (7), 1045, 2004 | 90 | 2004 |
| Ab initio calculations of elastic and magnetic properties of Fe, Co, Ni, and Cr crystals under isotropic deformation M Černý, J Pokluda, M Šob, M Friák, P Šandera Physical Review B 67 (3), 035116, 2003 | 86 | 2003 |
| Influence of superimposed biaxial stress on the tensile strength of perfect crystals from first principles M Černý, J Pokluda Physical Review B—Condensed Matter and Materials Physics 76 (2), 024115, 2007 | 68 | 2007 |
| Ideal tensile strength of cubic crystals under superimposed transverse biaxial stresses from first principles M Černý, J Pokluda Physical Review B—Condensed Matter and Materials Physics 82 (17), 174106, 2010 | 65 | 2010 |
| Can pure mode III fatigue loading contribute to crack propagation in metallic materials? J Pokluda, R Pippan Fatigue & fracture of engineering materials & structures 28 (1‐2), 179-185, 2005 | 59 | 2005 |
| Toughening effects quantification in glass matrix composite reinforced by alumina platelets M Kotoul, J Pokluda, P Šandera, I Dlouhý, Z Chlup, AR Boccaccini Acta materialia 56 (12), 2908-2918, 2008 | 58 | 2008 |
| Calculation of theoretical strength of solids by linear muffin-tin orbitals (LMTO) method P Šandera, J Pokluda, LG Wang, M Šob Materials Science and Engineering: A 234, 370-372, 1997 | 49 | 1997 |
| Finite element simulation of stresses in a plasma-sprayed thermal barrier coating with a crack at the TGO/bond-coat interface P Skalka, K Slámečka, J Pokluda, L Čelko Surface and coatings technology 337, 321-334, 2018 | 45 | 2018 |
| Near-threshold propagation of mode II and mode III fatigue cracks in ferrite and austenite T Vojtek, R Pippan, A Hohenwarter, L Holáň, J Pokluda Acta materialia 61 (12), 4625-4635, 2013 | 45 | 2013 |
| Analysis of roughness-induced crack closure based on asymmetric crack-wake plasticity and size ratio effect J Pokluda, R Pippan Materials Science and Engineering: A 462 (1-2), 355-358, 2007 | 45 | 2007 |
| Dislocation-based model of plasticity and roughness-induced crack closure J Pokluda International journal of fatigue 46, 35-40, 2013 | 44 | 2013 |
| Quantitative fractography of fish-eye crack formation under bending–torsion fatigue K Slámečka, J Pokluda, M Kianicová, Š Major, I Dvořák International Journal of fatigue 32 (6), 921-928, 2010 | 44 | 2010 |
| Straightforward comparison of fatigue crack growth under modes II and III J Pokluda, G Trattnig, C Martinschitz, R Pippan International journal of fatigue 30 (8), 1498-1506, 2008 | 44 | 2008 |
| 3D atomistic studies of fatigue behaviour of edge crack (0 0 1) in bcc iron loaded in mode i and II A Machová, J Pokluda, A Uhnáková, P Hora International journal of fatigue 66, 11-19, 2014 | 40 | 2014 |
| The theoretical tensile strength of fcc crystals predicted from shear strength calculations M Černý, J Pokluda Journal of Physics: Condensed Matter 21 (14), 145406, 2009 | 40 | 2009 |
| Statistical approach to roughness‐induced shielding effects J Pokluda, P Šandera, J Horníková Fatigue & Fracture of Engineering Materials & Structures 27 (2), 141-157, 2004 | 40 | 2004 |
