Effects of a piezo-actuator on a finitely deformed beam subjected togeneral loading S Im, SN Atluri AIAA journal 27 (12), 1801-1807, 1989 | 233 | 1989 |
Atomistic simulations of incipient plasticity under Al (1 1 1) nanoindentation Y Lee, JY Park, SY Kim, S Jun, S Im Mechanics of Materials 37 (10), 1035-1048, 2005 | 170 | 2005 |
Finite element simulation of the plastic collapse of closed-cell aluminum foams with X-ray computed tomography I Jeon, T Asahina, KJ Kang, S Im, TJ Lu Mechanics of Materials 42 (3), 227-236, 2010 | 141 | 2010 |
Finite element analysis of wrinkling membranes S Kang, S Im | 133 | 1997 |
An improved interface element with variable nodes for non-matching finite element meshes YS Cho, S Jun, S Im, HG Kim Computer Methods in Applied Mechanics and Engineering 194 (27-29), 3022-3046, 2005 | 90 | 2005 |
Large-scale molecular dynamics simulations of Al (111) nanoscratching S Jun, Y Lee, SY Kim, S Im Nanotechnology 15 (9), 1169, 2004 | 86 | 2004 |
Mechanical strength characteristics of asymmetric tilt grain boundaries in graphene J Han, S Ryu, D Sohn, S Im Carbon 68, 250-257, 2014 | 85 | 2014 |
MLS (moving least square)-based finite elements for three-dimensional nonmatching meshes and adaptive mesh refinement JH Lim, S Im, YS Cho Computer methods in applied mechanics and engineering 196 (17-20), 2216-2228, 2007 | 69 | 2007 |
Finite element analysis of dynamic response of wrinkling membranes S Kang, S Im Computer Methods in Applied Mechanics and Engineering 173 (1-2), 227-240, 1999 | 69 | 1999 |
A study of two finite strain plasticity models: an internal time theory using Mandel's director concept, and a general isotropic/kinematic-hardening theory S Im, SN Atluri International journal of plasticity 3 (2), 163-191, 1987 | 66 | 1987 |
MLS‐based variable‐node elements compatible with quadratic interpolation. Part I: formulation and application for non‐matching meshes YS Cho, S Im International journal for numerical methods in engineering 65 (4), 494-516, 2006 | 62 | 2006 |
An application of two-state M-integral for computing the intensity of the singular near-tip field for a generic wedge S Im, KS Kim Journal of the Mechanics and Physics of Solids 48 (1), 129-151, 2000 | 62 | 2000 |
Numerical implementation of a thermo-elastic–plastic constitutive equation in consideration of transformation plasticity in welding J Kim, S Im, HG Kim International journal of plasticity 21 (7), 1383-1408, 2005 | 58 | 2005 |
Variable‐node elements for non‐matching meshes by means of MLS (moving least‐square) scheme JH Lim, S Im, YS Cho International Journal for Numerical Methods in Engineering 72 (7), 835-857, 2007 | 54 | 2007 |
MLS‐based variable‐node elements compatible with quadratic interpolation. Part II: application for finite crack element YS Cho, S Im International Journal for Numerical Methods in Engineering 65 (4), 517-547, 2006 | 47 | 2006 |
Mode decomposition of three-dimensional mixed-mode cracks via two-state integrals YJ Kim, HG Kim, S Im International journal of solids and structures 38 (36-37), 6405-6426, 2001 | 46 | 2001 |
A new computational approach to contact mechanics using variable‐node finite elements JH Kim, JH Lim, JH Lee, S Im International journal for numerical methods in engineering 73 (13), 1966-1988, 2008 | 45 | 2008 |
The role of higher order eigenfields in elastic–plastic cracks I Jeon, S Im Journal of the Mechanics and Physics of Solids 49 (12), 2789-2818, 2001 | 45 | 2001 |
Variable-node element families for mesh connection and adaptive mesh computation JH Lim, D Sohn, S Im Structural Engineering and Mechanics 43 (3), 349-370, 2012 | 44 | 2012 |
A finite element scheme with the aid of a new carving technique combined with smoothed integration D Sohn, J Han, YS Cho, S Im Computer methods in applied mechanics and engineering 254, 42-60, 2013 | 39 | 2013 |