A new implementation of the meshless finite volume method, through the MLPG “mixed” approach SN Atluri, ZD Han, AM Rajendran CMES: Computer Modeling in Engineering & Sciences 6 (6), 491-514, 2004 | 230 | 2004 |
Dynamic fracture of ceramics in armor applications WW Chen, AM Rajendran, B Song, X Nie Journal of the American Ceramic Society 90 (4), 1005-1018, 2007 | 173 | 2007 |
Modeling the impact behavior of AD85 ceramic under multiaxial loading AM Rajendran International Journal of Impact Engineering 15 (6), 749-768, 1994 | 161 | 1994 |
Meshless local Petrov-Galerkin (MLPG) approaches for solving nonlinear problems with large deformations and rotations ZD Han, AM Rajendran, SN Atluri Computer Modeling in Engineering and Sciences 10 (1), 1, 2005 | 137 | 2005 |
Low-velocity impact damage accumulation in woven S2-glass composite systems JN Baucom, MA Zikry, AM Rajendran Composites science and technology 66 (10), 1229-1238, 2006 | 132 | 2006 |
Modeling the shock response of silicon carbide, boron carbide and titanium diboride AM Rajendran, DJ Grove International Journal of Impact Engineering 18 (6), 611-631, 1996 | 126 | 1996 |
A void growth‐based failure model to describe spallation AM Rajendran, MA Dietenberger, DJ Grove Journal of applied physics 65 (4), 1521-1527, 1989 | 107 | 1989 |
The applications of meshless local Petrov-Galerkin (MLPG) approaches in high-speed impact, penetration and perforation problems ZD Han, HT Liu, AM Rajendran, SN Atluri CMC-TECH SCIENCE PRESS- 4 (2), 119, 2006 | 103 | 2006 |
Impact damage model for ceramic materials AM Rajendran, JL Kroupa Journal of Applied Physics 66 (8), 3560-3565, 1989 | 99 | 1989 |
A micromechanical model for damage progression in woven composite systems YA Bahei-El-Din, AM Rajendran, MA Zikry International journal of solids and structures 41 (9-10), 2307-2330, 2004 | 98 | 2004 |
Atomic scale simulations of ductile failure micromechanisms in nanocrystalline Cu at high strain rates AM Dongare, AM Rajendran, B LaMattina, MA Zikry, DW Brenner Physical Review B 80 (10), 104108, 2009 | 87 | 2009 |
Dislocation evolution and peak spall strengths in single crystal and nanocrystalline Cu K Mackenchery, RR Valisetty, RR Namburu, A Stukowski, AM Rajendran, ... Journal of Applied Physics 119 (4), 2016 | 86 | 2016 |
Atomic scale studies of spall behavior in nanocrystalline Cu AM Dongare, AM Rajendran, B LaMattina, MA Zikry, DW Brenner Journal of Applied Physics 108 (11), 2010 | 82 | 2010 |
Statistically stored, geometrically necessary and grain boundary dislocation densities: microstructural representation and modelling O Rezvanian, MA Zikry, AM Rajendran Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2007 | 79 | 2007 |
A ceramic armor material database TJ Holmquist, AM Rajendran, DW Templeton, KD Bishnoi US: Tacom Research Development and Engineering Center, 1999 | 77 | 1999 |
Inertia effects on the ductile failure of thin rings AM Rajendran, IM Fyfe | 76 | 1982 |
Dynamic response of glass under low-velocity impact and high strain-rate SHPB compression loading SS Daryadel, PR Mantena, K Kim, D Stoddard, AM Rajendran Journal of Non-Crystalline Solids 432, 432-439, 2016 | 74 | 2016 |
Response of seven crystallographic orientations of sapphire crystals to shock stresses of 16–86 GPa GI Kanel, WJ Nellis, AS Savinykh, SV Razorenov, AM Rajendran Journal of Applied Physics 106 (4), 2009 | 72 | 2009 |
Analytical solution to the plate impact problem of layered heterogeneous material systems X Chen, N Chandra, AM Rajendran International Journal of Solids and Structures 41 (16-17), 4635-4659, 2004 | 69 | 2004 |
Representative volume element based modeling of cementitious materials MM Shahzamanian, T Tadepalli, AM Rajendran, WD Hodo, R Mohan, ... Journal of engineering materials and technology 136 (1), 011007, 2014 | 62 | 2014 |