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J Korean Soc Coast Ocean Eng
> Browse Articles > J Korean Soc Coast Ocean Eng
Physical Model Tests for Mean Wave Overtopping Discharge of Rubble-mound Structure Covered by Tetrapods:
R
C
/A
C
= 1 and cot
a
= 1.5 Conditions
Jong-In Lee, Young-Taek Kim
J Korean Soc Coast Ocean Eng.
2023;35(3):49-56. Published online June 30, 2023
doi:
https://doi.org/10.9765/KSCOE.2023.35.3.49
Physical Model Test for Wave Overtopping for Vertical Seawall with Relatively Steep Bottom Slope for the Impulsive Wave Condition
Young-Taek Kim, Jong-In Lee
J Korean Soc Coast Ocean Eng.
2023;35(2):33-40. Published online April 30, 2023
doi:
https://doi.org/10.9765/KSCOE.2023.35.2.33
Cited By 3
A Study on the Application of Low Crest Structures to Reduce Wave Overtopping
Kyu-Tae Shim, Kyu-Han Kim, Ki-Seock Cha
J Korean Soc Coast Ocean Eng.
2022;34(6):290-302. Published online December 27, 2022
doi:
https://doi.org/10.9765/KSCOE.2022.34.6.290
A Study of Hydraulic Characteristics in Front of the Seawall under the Coexistence of Wave and Wind
Kyu-Tae Shim, Kyu-Han Kim
J Korean Soc Coast Ocean Eng.
2020;32(6):575-586. Published online December 31, 2020
doi:
https://doi.org/10.9765/KSCOE.2020.32.6.575
Cited By 3
Physical Modeling of Horizontal Force on the Inland Vertical Structure by Tsunami-like Waves
Hyongsu Park, Daniel Cox, Sungwon Shin
J Korean Soc Coast Ocean Eng.
2017;29(6):363-368. Published online December 31, 2017
doi:
https://doi.org/10.9765/KSCOE.2017.29.6.363
Cited By 1
1
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> Browse Articles > J Korean Soc Coast Ocean Eng 
