Artikler med mandater om offentlig tilgang - Doo-Yeol YooLes mer
Ikke tilgjengelige noe sted: 12
Flexural and cracking behaviors of reinforced UHPC beams with various reinforcement ratios and fiber contents
Z Feng, C Li, DY Yoo, R Pan, J He, L Ke
Engineering structures 248, 113266, 2021
Mandater: National Natural Science Foundation of China, European Commission
Machine-learning methods for estimating compressive strength of high-performance alkali-activated concrete
T Shafighfard, F Kazemi, N Asgarkhani, DY Yoo
Engineering Applications of Artificial Intelligence 136, 109053, 2024
Mandater: Polish National Agency for Academic Exchange
Prediction of shear strength in UHPC beams using machine learning-based models and SHAP interpretation
M Ye, L Li, DY Yoo, H Li, C Zhou, X Shao
Construction and Building Materials 408, 133752, 2023
Mandater: National Natural Science Foundation of China
Mechanistic understanding of precast UHPC segmental beams with external tendons and epoxy joints subject to combined bending and shear
M Ye, L Li, DY Yoo, H Li, X Shao, C Zhou
Engineering Structures 280, 115698, 2023
Mandater: National Natural Science Foundation of China
Shear behavior of externally prestressed ultra-high-performance concrete (UHPC) T-beams without stirrups
M Ye, L Li, B Pei, DY Yoo, H Li
Engineering Structures 288, 116217, 2023
Mandater: National Natural Science Foundation of China
Shear performance of prestressed composite box beams with ultra-high-performance concrete and corrugated steel webs under different loading conditions
M Ye, L Li, DY Yoo, L Wang, H Li, C Zhou
Thin-Walled Structures 186, 110675, 2023
Mandater: National Natural Science Foundation of China
Experimental and numerical investigations on flexural performance of ultra-high-performance concrete (UHPC) beams with wet joints
Z Feng, C Li, L Ke, DY Yoo
Structures 45, 199-213, 2022
Mandater: National Natural Science Foundation of China
Experimental investigation on torsional behaviors of ultra-high-performance fiber-reinforced concrete hollow beams
J Zhou, C Li, Z Feng, DY Yoo
Cement and Concrete Composites 129, 104504, 2022
Mandater: National Natural Science Foundation of China
A critical review on shear performance of joints in precast Ultra-High-Performance Concrete (UHPC) segmental bridges
M Ye, L Li, B Pei, DY Yoo, H Li, C Zhou
Engineering Structures 301, 117224, 2024
Mandater: National Natural Science Foundation of China
Shear capacity of ultrahigh-performance concrete with monolithic interface and wet-joint interface
Z Feng, C Li, R Pan, DY Yoo, J He, L Ke
Journal of Materials in Civil Engineering 34 (7), 04022153, 2022
Mandater: National Natural Science Foundation of China, European Commission
Tensile behavior of ultra-high-performance fiber-reinforced concrete (UHPFRC) structure with cold joints
Z Feng, C Li, L Ke, DY Yoo
Engineering Structures 273, 115084, 2022
Mandater: National Natural Science Foundation of China
Modified softened membrane model for ultra-high-performance fiber-reinforced concrete solid and hollow beams under pure torsion
J Zhou, C Li, DY Yoo, J He, Z Feng
Engineering Structures 270, 114865, 2022
Mandater: National Natural Science Foundation of China
Tilgjengelige et eller annet sted: 6
Shear behavior of precast ultrahigh-performance concrete (UHPC) segmental beams with external tendons and dry joints
M Ye, L Li, DY Yoo, L Wang, H Li, X Shao
Archives of Civil and Mechanical Engineering 23 (3), 143, 2023
Mandater: National Natural Science Foundation of China
Interfacial bond behavior between ribbed CFRP bars and UHPFRC: effects of anchorage length and cover thickness
L Ke, Z Ai, Z Feng, Z Chen, DY Yoo
Engineering Structures 286, 116140, 2023
Mandater: National Natural Science Foundation of China
Experimental and theoretical investigation of the shear lag effect in the novel non-prismatic prestressed CSW–UHPC composite box girders
H Li, L Li, DY Yoo, M Ye, C Zhou, X Shao
Archives of Civil and Mechanical Engineering 23 (2), 132, 2023
Mandater: National Natural Science Foundation of China
Active learning on stacked machine learning techniques for predicting compressive strength of alkali-activated ultra-high-performance concrete
F Kazemi, T Shafighfard, R Jankowski, DY Yoo
Archives of Civil and Mechanical Engineering 25 (1), 24, 2025
Mandater: Polish National Agency for Academic Exchange
Shear performance evaluation of damaged RC beams strengthened with cast-in-place U-shaped UHPFRC shell
L Ke, J Guo, B Yan, H Cheng, Z Feng, J Zhou, DY Yoo
Structures 58, 105530, 2023
Mandater: National Natural Science Foundation of China
Effectiveness of flange plates on torsional behaviors of ultra-high-performance fiber-reinforced concrete hollow beams
J Zhou, P Yu, DY Yoo, L Yu, L Ke
Developments in the Built Environment 16, 100227, 2023
Mandater: National Natural Science Foundation of China
Informasjon om publisering og finansiering fastsettes automatisk av et datamaskinprogram