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Jin-Ha Hwang
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Fracture toughness prediction of hydrogen-embrittled materials using small punch test data in Hydrogen
KW Seo, JH Hwang, YJ Kim, KS Kim, PS Lam
International Journal of Mechanical Sciences 225, 107371, 2022
172022
Energy-based damage model incorporating failure cycle and load ratio effects for very low cycle fatigue crack growth simulation
JH Hwang, YJ Kim, JW Kim
International Journal of Mechanical Sciences 221, 107223, 2022
162022
Crack tip fields at crack initiation and growth under monotonic and large amplitude cyclic loading: experimental and FE analyses
JH Hwang, HT Kim, YJ Kim, HS Nam, JW Kim
International Journal of Fatigue 141, 105889, 2020
152020
Fracture modeling of cracked pipe under monotonic and cyclic loading
JH Hwang, GG Youn, YJ Kim, JW Kim
International Journal of Mechanical Sciences 183, 105837, 2020
152020
Predicting ductile fracture of cracked pipes using small punch test data
JM Lee, JH Hwang, YJ Kim, JW Kim
European Journal of Mechanics-A/Solids 87, 104211, 2021
142021
Finite element simulation method for combined Ductile-Brittle fracture of small punch test in hydrogen
KW Seo, YJ Kim, JH Hwang, KS Kim
Engineering Fracture Mechanics 289, 109489, 2023
132023
Ductile tearing simulation of STS410 pipe fracture test under load-controlled large-amplitude cyclic loading: Part I—Effect of load ratio
JH Hwang, GG Youn, HT Kim, YJ Kim, N Miura
Engineering Fracture Mechanics 226, 106869, 2020
132020
Load interaction effect on fatigue crack growth in through-wall cracked pipes under large scale yielding: Experimental and numerical investigation
JH Hwang, YJ Kim, JW Kim
International Journal of Mechanical Sciences 211, 106761, 2021
82021
Ductile tearing simulation of STS410 pipe fracture test under load-controlled large-amplitude cyclic loading: Part II–effect of load amplitude and sequence
JH Hwang, GG Youn, HT Kim, YJ Kim, N Miura
Engineering Fracture Mechanics 240, 107363, 2020
82020
Prediction model for initiation in cracked component under very low cycle fatigue
JH Hwang, YJ Kim, JW Kim
Theoretical and Applied Fracture Mechanics 116, 103123, 2021
52021
A novel formula for predicting the ultimate compressive strength of the cylindrically curved plates
AMK Wong, J Hwang, S Li, NK Cho
International Journal of Naval Architecture and Ocean Engineering 16, 100562, 2024
42024
On determination of model parameters for strain based ductile tearing simulation
EK Park, JH Hwang, YJ Kim, PS Lam
Engineering Fracture Mechanics 272, 108698, 2022
32022
Aging constants for efficient fracture toughness prediction of thermally aged GTAW/SMAW of 316L stainless steel
YJ Kim, GG Youn, JH Hwang, YJ Kim, Y Miura
International journal of pressure vessels and piping 197, 104632, 2022
32022
Fracture mechanics analysis method for cracked components under very low cycle fatigue loading
GG Youn, JH Hwang, DY Lee, YJ Kim, JW Kim, N Miura
International Journal of Pressure Vessels and Piping 188, 104191, 2020
32020
Effect of surface crack dimension on very low cycle fatigue crack growth behavior of circumferential cracked pipes
HS Song, JH Hwang, YJ Kim, JW Kim
Thin-Walled Structures 191, 111045, 2023
22023
Benchmark Analysis of Ductile Fracture Simulation for Circumferentially Cracked Pipes Subjected to Bending
T Kumagai, Y Miura, N Miura, S Marie, R Almahdi, A Mano, Y Li, ...
Journal of Pressure Vessel Technology 144 (1), 011509, 2022
22022
Cutting-edge insights: Crack growth rates in 9% Ni steel from room to cryogenic conditions influenced by crack closure and effective stress intensity factors
YY Lin, BS Jang, SW Han, YH Park, J Hwang
Engineering Fracture Mechanics 301, 110014, 2024
12024
Fracture-toughness estimation from small-punch test in hydrogen exhibiting ductile and ductile–brittle fracture modes
JH Hwang, KW Seo, YJ Kim, KS Kim
European Journal of Mechanics-A/Solids 103, 105193, 2024
12024
Initial cyclic hardening behavior of cracked structures under large-amplitude cyclic loading
JH Hwang, YJ Kim, JW Kim, SE Kim
Engineering Fracture Mechanics 254, 107911, 2021
12021
Advanced techniques for residual stress measurement and data processing in fatigue crack growth rate tests of FH36 and 9% Ni steel at cryogenic temperatures
YY Lin, KS Park, J Hwang, NK Cho
Ocean Engineering 316, 119942, 2025
2025
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