 |
|
Punching Fracture Experiments and Simulations of Unstiffened and Stiffened Panels for Ships and Offshore Structures
Sung-Ju Park, Joonmo Choung
J. Ocean Eng. Technol.. 2020;34(3):155-166. Published online 2020 Jun 15 DOI: https://doi.org/10.26748/KSOE.2020.023
|
|
Citations to this article as recorded by
 On the Resistance of Cruciform Structures during Ship Collision and Grounding
Hewei Liu, Kun Liu, Xiufei Wang, Zhenguo Gao, Jiaxia Wang
Journal of Marine Science and Engineering.2023; 11(2): 459. CrossRef Fracture Prediction of Steel-Plated Structures under Low-Velocity Impact
Burak Can Cerik, Joonmo Choung
Journal of Marine Science and Engineering.2023; 11(4): 699. CrossRef Application of ductile fracture model for the prediction of low cycle fatigue in structural steel
Sung-Ju Park
Engineering Fracture Mechanics.2023; 289: 109469. CrossRef Numerical study of quasi-static crushing behaviors of steel tubular structures according to the slenderness ratio
Young IL Park, Jin-Seong Cho, Jeong-Hwan Kim
Journal of Advanced Marine Engineering and Technol.2022; 46(3): 101. CrossRef Effects of fracture models on structural damage and acceleration in naval ships due to underwater explosions
Hyunwoo Kim, Burak Can Cerik, Joonmo Choung
Ocean Engineering.2022; 266: 112930. CrossRef Evaluation of Localized Necking Models for Fracture Prediction in Punch-Loaded Steel Panels
Burak Can Cerik, Kangsu Lee, Joonmo Choung
Journal of Marine Science and Engineering.2021; 9(2): 117. CrossRef Localized Necking Model for Punching Fracture Simulation in Unstiffened and Stiffened Panels
Sung-Ju Park, Kookhyun Kim
Applied Sciences.2021; 11(9): 3774. CrossRef Fracture Estimation in Ship Collision Analysis—Strain Rate and Thermal Softening Effects
Burak Can Cerik, Joonmo Choung
Metals.2021; 11(9): 1402. CrossRef
|