| Elements of structural optimization RT Haftka, Z Gürdal Springer Science & Business Media, 2012 | 3762 | 2012 |
| Design and optimization of laminated composite materials Z Gürdal, RT Haftka, P Hajela John Wiley & Sons, 1999 | 869 | 1999 |
| In-plane response of laminates with spatially varying fiber orientations-variable stiffness concept Z Gurdal, R Olmedo AIAA journal 31 (4), 751-758, 1993 | 636 | 1993 |
| Variable stiffness composite panels: effects of stiffness variation on the in-plane and buckling response Z Gürdal, BF Tatting, CK Wu Composites Part A: Applied Science and Manufacturing 39 (5), 911-922, 2008 | 542 | 2008 |
| Low-velocity impact damage on dispersed stacking sequence laminates. Part II: Numerical simulations CS Lopes, PP Camanho, Z Gürdal, P Maimí, EV González Composites Science and Technology 69 (7-8), 937-947, 2009 | 448 | 2009 |
| Composite laminate design optimization by genetic algorithm with generalized elitist selection G Soremekun, Z Gürdal, RT Haftka, LT Watson Computers & structures 79 (2), 131-143, 2001 | 330 | 2001 |
| Improved genetic algorithm for the design of stiffened composite panels S Nagendra, D Jestin, Z Gürdal, RT Haftka, LT Watson Computers & Structures 58 (3), 543-555, 1996 | 330 | 1996 |
| Variable-stiffness composite panels: Buckling and first-ply failure improvements over straight-fibre laminates CS Lopes, Z Gürdal, PP Camanho Computers & Structures 86 (9), 897-907, 2008 | 312 | 2008 |
| Design of variable stiffness composite panels for maximum fundamental frequency using lamination parameters MM Abdalla, S Setoodeh, Z Gürdal Composite structures 81 (2), 283-291, 2007 | 289 | 2007 |
| Design of variable–stiffness laminates using lamination parameters S Setoodeh, MM Abdalla, Z Gürdal Composites Part B: Engineering 37 (4-5), 301-309, 2006 | 284 | 2006 |
| Design of variable-stiffness composite panels for maximum buckling load S Setoodeh, MM Abdalla, ST IJsselmuiden, Z Gürdal Composite structures 87 (1), 109-117, 2009 | 281 | 2009 |
| Low-velocity impact damage on dispersed stacking sequence laminates. Part I: Experiments CS Lopes, O Seresta, Y Coquet, Z Gürdal, PP Camanho, B Thuis Composites Science and Technology 69 (7-8), 926-936, 2009 | 265 | 2009 |
| Progressive failure analysis of tow-placed, variable-stiffness composite panels CS Lopes, PP Camanho, Z Gürdal, BF Tatting International Journal of Solids and Structures 44 (25-26), 8493-8516, 2007 | 215 | 2007 |
| Genetic algorithms with local improvement for composite laminate design N Kogiso, LT Watson, Z Gürdal, RT Haftka Structural optimization 7, 207-218, 1994 | 212 | 1994 |
| Isogeometric sizing and shape optimisation of beam structures AP Nagy, MM Abdalla, Z Gürdal Computer Methods in Applied Mechanics and Engineering 199 (17-20), 1216-1230, 2010 | 207 | 2010 |
| Optimization of variable-stiffness panels for maximum buckling load using lamination parameters ST IJsselmuiden, MM Abdalla, Z Gurdal AIAA journal 48 (1), 134-143, 2010 | 206 | 2010 |
| Optimal design of composite lattice shell structures for aerospace applications G Totaro, Z Gürdal Aerospace Science and Technology 13 (4-5), 157-164, 2009 | 202 | 2009 |
| Design and manufacture of elastically tailored tow placed plates BF Tatting, Z Gürdal, D Jegley | 197 | 2002 |
| Stacking sequence blending of multiple composite laminates using genetic algorithms G Soremekun, Z Gürdal, C Kassapoglou, D Toni Composite structures 56 (1), 53-62, 2002 | 188 | 2002 |
| A theoretical model to study the influence of tow-drop areas on the stiffness and strength of variable-stiffness laminates AW Blom, CS Lopes, PJ Kromwijk, Z Gurdal, PP Camanho Journal of composite materials 43 (5), 403-425, 2009 | 186 | 2009 |
