Study on true stress correction from tensile tests JM Choung, SR Cho Journal of Mechanical Science and Technology 22, 1039-1051, 2008 | 178 | 2008 |
Corroded pipeline failure analysis using artificial neural network scheme WZ Xu, CB Li, J Choung, JM Lee Advances in engineering software 112, 255-266, 2017 | 117 | 2017 |
Dynamic hardening behaviors of various marine structural steels considering dependencies on strain rate and temperature J Choung, W Nam, JY Lee Marine Structures 32, 49-67, 2013 | 90 | 2013 |
A new fatigue prediction model for marine structures subject to wide band stress process JB Park, J Choung, KS Kim Ocean Engineering 76, 144-151, 2014 | 71 | 2014 |
Estimation of failure strain of EH36 high strength marine structural steel using average stress triaxiality J Choung, CS Shim, HC Song Marine Structures 29 (1), 1-21, 2012 | 70 | 2012 |
Reliability-based design optimization of an FPSO riser support using moving least squares response surface meta-models CY Song, J Lee, JM Choung Ocean Engineering 38 (2-3), 304-318, 2011 | 59 | 2011 |
Simulation of ship collision and grounding damage using Hosford-Coulomb fracture model for shell elements BC Cerik, K Lee, SJ Park, J Choung Ocean Engineering 173, 415-432, 2019 | 52 | 2019 |
Assessment of residual ultimate strength of an asymmetrically damaged tanker considering rotational and translational shifts of neutral axis plane J Choung, JM Nam, TB Ha Marine Structures 25 (1), 71-84, 2012 | 52 | 2012 |
Comparative studies of fracture models for marine structural steels J Choung Ocean Engineering 36 (15-16), 1164-1174, 2009 | 52 | 2009 |
Failure strain formulation via average stress triaxiality of an EH36 high strength steel J Choung, W Nam, D Lee, CY Song Ocean Engineering 91, 218-226, 2014 | 48 | 2014 |
Wide-banded fatigue damage evaluation of Catenary mooring lines using various Artificial Neural Networks models CB Li, J Choung, MH Noh Marine Structures 60, 186-200, 2018 | 46 | 2018 |
Impact test simulations of stiffened plates using the micromechanical porous plasticity model J Choung, SR Cho, KS Kim Ocean Engineering 37 (8-9), 749-756, 2010 | 45 | 2010 |
Comparative study on ductile fracture prediction of high-tensile strength marine structural steels SJ Park, BC Cerik, J Choung Ships and Offshore Structures 15 (sup1), S208-S219, 2020 | 38 | 2020 |
Revisiting MARSTRUCT benchmark study on side-shell collision with a combined localized necking and stress-state dependent ductile fracture model BC Cerik, JW Ringsberg, J Choung Ocean Engineering 187, 106173, 2019 | 33 | 2019 |
Modeling, testing and calibration of ductile crack formation in grade DH36 ship plates BC Cerik, B Park, SJ Park, J Choung Marine Structures 66, 27-43, 2019 | 33 | 2019 |
Fatigue damage analysis for a floating offshore wind turbine mooring line using the artificial neural network approach CB Li, J Choung Ships and Offshore Structures 12 (sup1), S288-S295, 2017 | 33 | 2017 |
Plasticity and fracture behaviors of marine structural steel, part III: Experimental study on failure strain JM Choung, CS Shim, KS Kim Journal of Ocean Engineering and Technology 25 (3), 53-65, 2011 | 33 | 2011 |
Ductile fracture prediction of EH36 grade steel based on Hosford–Coulomb model SJ Park, K Lee, BC Cerik, J Choung Ships and Offshore Structures 14 (sup1), 219-230, 2019 | 31 | 2019 |
Plasticity and fracture behaviors of marine structural steel, Part I: Theoretical backgrounds of strain hardening and rate hardening JM Choung, CS Shim, KS Kim Journal of Ocean Engineering and Technology 25 (2), 134-144, 2011 | 31 | 2011 |
Rate-dependent combined necking and fracture model for predicting ductile fracture with shell elements at high strain rates BC Cerik, J Choung International Journal of Impact Engineering 146, 103697, 2020 | 23 | 2020 |