| Fundamental frequency analysis of functionally graded beams by using different higher-order beam theories M Şimşek Nuclear Engineering and Design 240 (4), 697-705, 2010 | 607 | 2010 |
| Bending and vibration of functionally graded microbeams using a new higher order beam theory and the modified couple stress theory M Şimşek, JN Reddy International Journal of Engineering Science 64, 37-53, 2013 | 543 | 2013 |
| Free and forced vibration of a functionally graded beam subjected to a concentrated moving harmonic load M Şimşek, T Kocatürk Composite Structures 90 (4), 465-473, 2009 | 488 | 2009 |
| Analytical solutions for bending and buckling of functionally graded nanobeams based on the nonlocal Timoshenko beam theory M Şimşek, HH Yurtcu Composite Structures 97, 378-386, 2013 | 452 | 2013 |
| Nonlinear free vibration of a functionally graded nanobeam using nonlocal strain gradient theory and a novel Hamiltonian approach M Şimşek International Journal of Engineering Science 105, 12-27, 2016 | 388 | 2016 |
| An investigation on mechanical and physical properties of recycled aggregate concrete (RAC) with and without silica fume H Dilbas, M Şimşek, Ö Çakır Construction and Building materials 61, 50-59, 2014 | 366 | 2014 |
| Vibration analysis of a functionally graded beam under a moving mass by using different beam theories M Şimşek Composite structures 92 (4), 904-917, 2010 | 364 | 2010 |
| Bi-directional functionally graded materials (BDFGMs) for free and forced vibration of Timoshenko beams with various boundary conditions M Şimşek Composite Structures 133, 968-978, 2015 | 306 | 2015 |
| Non-linear vibration analysis of a functionally graded Timoshenko beam under action of a moving harmonic load M Şimşek Composite Structures 92 (10), 2532-2546, 2010 | 280 | 2010 |
| A unified higher order beam theory for buckling of a functionally graded microbeam embedded in elastic medium using modified couple stress theory M Şimşek, JN Reddy Composite Structures 101, 47-58, 2013 | 255 | 2013 |
| Vibration analysis of a single-walled carbon nanotube under action of a moving harmonic load based on nonlocal elasticity theory M Şimşek Physica E: Low-dimensional Systems and Nanostructures 43 (1), 182-191, 2010 | 251 | 2010 |
| Dynamic analysis of an embedded microbeam carrying a moving microparticle based on the modified couple stress theory M Şimşek International Journal of Engineering Science 48 (12), 1721-1732, 2010 | 243 | 2010 |
| Buckling of Timoshenko beams composed of two-dimensional functionally graded material (2D-FGM) having different boundary conditions M Şimşek Composite Structures 149, 304-314, 2016 | 213 | 2016 |
| Static analysis of a functionally graded beam under a uniformly distributed load by Ritz method M Şimşek International Journal of Engineering and Applied Sciences 1 (3), 1-11, 2009 | 205 | 2009 |
| Large amplitude free vibration of nanobeams with various boundary conditions based on the nonlocal elasticity theory M Şimşek Composites Part B: Engineering 56, 621-628, 2014 | 194 | 2014 |
| Dynamic behavior of an axially functionally graded beam under action of a moving harmonic load M Şimşek, T Kocatürk, ŞD Akbaş Composite Structures 94 (8), 2358-2364, 2012 | 184 | 2012 |
| Static bending of a functionally graded microscale Timoshenko beam based on the modified couple stress theory M Şimşek, T Kocatürk, ŞD Akbaş Composite Structures 95, 740-747, 2013 | 178 | 2013 |
| Nonlocal effects in the forced vibration of an elastically connected double-carbon nanotube system under a moving nanoparticle M Şimşek Computational Materials Science 50 (7), 2112-2123, 2011 | 177 | 2011 |
| Nonlinear static and free vibration analysis of microbeams based on the nonlinear elastic foundation using modified couple stress theory and He’s variational method M Şimşek Composite Structures 112, 264-272, 2014 | 158 | 2014 |
| Static, free and forced vibration of functionally graded (FG) sandwich beams excited by two successive moving harmonic loads M Şimşek, M Al-Shujairi Composites Part B: Engineering 108, 18-34, 2017 | 152 | 2017 |
J. N. ReddyDistinguished Professor and O'Donnel Foundation Chair IV in Mechanical Engineering, Texas A&MVerified email at tamu.edu