| On the conversion of plastic work to heat during high strain rate deformation of glassy polymers D Rittel Mechanics of Materials 31 (2), 131-139, 1999 | 407 | 1999 |
| Dynamic recrystallization as a potential cause for adiabatic shear failure D Rittel, P Landau, A Venkert Physical review letters 101 (16), 165501, 2008 | 302 | 2008 |
| Scaling the response of circular plates subjected to large and close-range spherical explosions. Part I: Air-blast loading A Neuberger, S Peles, D Rittel International Journal of Impact Engineering 34 (5), 859-873, 2007 | 294 | 2007 |
| An analysis of nanoindentation in linearly elastic solids B Poon, D Rittel, G Ravichandran International Journal of Solids and Structures 45 (24), 6018-6033, 2008 | 254 | 2008 |
| Adiabatic shear failure and dynamic stored energy of cold work D Rittel, ZG Wang, M Merzer Physical review letters 96 (7), 075502, 2006 | 245 | 2006 |
| A shear-compression specimen for large strain testing D Rittel, S Lee, G Ravichandran Experimental Mechanics 42, 58-64, 2002 | 243 | 2002 |
| The dependence of the Taylor–Quinney coefficient on the dynamic loading mode D Rittel, LH Zhang, S Osovski Journal of the Mechanics and Physics of Solids 107, 96-114, 2017 | 227 | 2017 |
| Thermo-mechanical aspects of adiabatic shear failure of AM50 and Ti6Al4V alloys D Rittel, ZG Wang Mechanics of materials 40 (8), 629-635, 2008 | 189 | 2008 |
| Scaling the response of circular plates subjected to large and close-range spherical explosions. Part II: Buried charges A Neuberger, S Peles, D Rittel International journal of impact engineering 34 (5), 874-882, 2007 | 155 | 2007 |
| Modern topics and challenges in dynamic fracture BN Cox, H Gao, D Gross, D Rittel Journal of the Mechanics and Physics of Solids 53 (3), 565-596, 2005 | 149 | 2005 |
| An investigation of dynamic crack initiation in PMMA D Rittel, H Maigre Mechanics of materials 23 (3), 229-239, 1996 | 149 | 1996 |
| A method for dynamic fracture toughness determination using short beams G Weisbrod, D Rittel International Journal of Fracture 104, 89-103, 2000 | 137 | 2000 |
| Large strain mechanical behavior of 1018 cold-rolled steel over a wide range of strain rates M Vural, G Ravichandran, D Rittel Metallurgical and materials transactions A 34 (12), 2873-2885, 2003 | 136 | 2003 |
| Failure modes of electrospun nanofibers E Zussman, D Rittel, AL Yarin Applied physics letters 82 (22), 3958-3960, 2003 | 134 | 2003 |
| An investigation of the heat generated during cyclic loading of two glassy polymers. Part I: Experimental D Rittel Mechanics of Materials 32 (3), 131-147, 2000 | 133 | 2000 |
| The mechanical response of pure iron at high strain rates under dominant shear D Rittel, G Ravichandran, A Venkert Materials Science and Engineering: A 432 (1-2), 191-201, 2006 | 129 | 2006 |
| Theoretical and experimental analysis of longitudinal wave propagation in cylindrical viscoelastic rods A Benatar, D Rittel, AL Yarin Journal of the Mechanics and Physics of Solids 51 (8), 1413-1431, 2003 | 129 | 2003 |
| Microstructural effects on adiabatic shear band formation S Osovski, D Rittel, P Landau, A Venkert Scripta Materialia 66 (1), 9-12, 2012 | 114 | 2012 |
| Determination of the Johnson–Cook material parameters using the SCS specimen A Dorogoy, D Rittel Experimental mechanics 49, 881-885, 2009 | 114 | 2009 |
| On the Taylor–Quinney coefficient in dynamically phase transforming materials. Application to 304 stainless steel R Zaera, JA Rodríguez-Martínez, D Rittel International Journal of Plasticity 40, 185-201, 2013 | 111 | 2013 |
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