Chong, Joonmo
(Department of Naval Architecture and Ocean Engineering, Inha University)
Park, Sung-Ju (Department of Naval Architecture and Ocean Engineering, Inha University) Kim, Younghun (Departrment of Naval Architecture, Ocean & IT Engineering, Kyungnan University) |
1 | Choung, J. Shim C.S., Song H.C., 2012. Estimation of Failure Strain of EH36 High Strength Marine Structural Steel Using Average Stress Triaxiality. Marine Structures, 29(1), 1-21. DOI |
2 | Choung, J., Nam, W., 2013. Formulation of Failure Strain According to Average Stress Triaxiality of Low Temperature High Strength Steel (EH36). Journal of Ocean Engineering and Technology, 27(2), 19-26. DOI |
3 | Choung, J., Nam, W., Kim, Y., 2014a. Fracture Simulation of Low-temperature High-strength Steel (EH36) Using User-subroutine of Commercial Finite Element Code. Journal of Ocean Engineering and Technology, 28(1), 34-46. DOI |
4 | Choung, J., Nam, W., Lee, D., Song, S.Y., 2014b. Failure Strain Formulation Via Average Stress Triaxiality of an High Strength Steel for Arctic Structures. Ocean Engineering, 91, 218-226. DOI |
5 | Simulia, 2008. Abaqus User Manual. Silumia. |
6 | Altair, 2013. HyperWorks 12.0 User Manual. Altair. |
7 | Bai, Y., Wierzbicki, T., 2008. A New Model of Metal Plasticity and Fracture with Pressure and Lode Dependence. International Journal of Plasticity, 24(6), 1071-1096. DOI |
8 | Choung, J., 2009. Comparative Studies of Fracture Models for Marine Structural Steels. Ocean Engineering, 36(15), 1164-1174. DOI |
9 | Choung, J., Shim, C.S., Kim, K.S., 2011. Plasticity and Fracture Behaviors of Marine Structural Steel: Part III - Experimental Study on Failure Strain. Journal of Ocean Engineering and Technology, 25(3), 53-66. DOI |