2020-10 | Achieving slip-hardening behavior of sanded straight steel fibers in ultra-high-performance concrete | 류두열 |
2017-08 | Advanced Cementitious Materials: Mechanical Behavior, Durability, and Volume Stability | 류두열 |
2020-08 | Analysis on enhanced pullout resistance of steel fibers in ultra-high performance concrete under cryogenic condition | 류두열 |
2020-07 | Assessment of steel fiber corrosion in self-healed ultra-high-performance fiber-reinforced concrete and its effect on tensile performance | 류두열 |
2022-02 | Author Correction: Mechanical performance of ultra-high-performance strain-hardening cementitious composites according to binder composition and curing conditions (vol 22, 63, 2022) | 류두열 |
2011-10 | Autogenous shrinkage of concrete with design strength 60–120 N/mm2 | 류두열 |
2014-03 | Autogenous Shrinkage of Ultra High Performance Concrete Considering Early Age Coefficient of Thermal Expansion | 류두열 |
2021-04 | Bayesian Regularized Artificial Neural Network Model to Predict Strength Characteristics of Fly-Ash and Bottom-Ash Based Geopolymer Concrete | 류두열 |
2021-08 | Benefits of chemically treated steel fibers on enhancing the interfacial bond strength from ultra-high-performance concrete | 류두열 |
2021-04 | Benefits of curvilinear straight steel fibers on the rate-dependent pullout resistance of ultra-high-performance concrete | 류두열 |
2019-11 | Benefits of synthetic fibers on the residual mechanical performance of UHPFRC after exposure to ISO standard fire | 류두열 |
2021-05 | Benefits of TiO2 photocatalyst on mechanical property and nitrogen oxide removal of ultra-high-performance concrete | 류두열 |
2017-09 | Benefits of using amorphous metallic fibers in concrete pavement for long-term performance | 류두열 |
2014-07 | Benefits of Using Expansive and Shrinkage-Reducing Agents in UHPC for Volume Stability | 류두열 |
2016-12 | Benefits of using glass fiber-reinforced polymer bars in ultra-high-performance fiber-reinforced concrete | 류두열 |
2015-10 | Biaxial flexural behavior of ultra-high-performance fiber-reinforced concrete with different fiber lengths and placement methods | 류두열 |
2017-11 | Bond behavior of GFRP and steel bars in ultra-high-performance fiber-reinforced concrete | 류두열 |
2018-05 | Bond Behavior of Pretensioned Strand Embedded in Ultra-High-Performance Fiber-Reinforced Concrete | 류두열 |
2020-05 | Bond performance of abraded arch-type steel fibers in ultra-high-performance concrete | 류두열 |
2018-10 | Bond performance of steel rebar embedded in 80-180 MPa ultra-high-strength concrete | 류두열 |
2019-11 | Bond-slip response of novel half-hooked steel fibers in ultra-high-performance concrete | 류두열 |
2020-06 | Cementitious material reinforced by carbon nanotube-Nylon 66 hybrid nanofibers: Mechanical strength and microstructure analysis | 류두열 |
2021-01 | Chelate effect on fiber surface morphology and its benefits on pullout and tensile behaviors of ultra-high-performance concrete | 류두열 |
2021-01 | Chelate effect on fiber surface morphology and its benefits on pullout and tensile behaviors of ultra-high-performance concrete | 류두열 |
2022-05 | Combined chelating and corrosion effects of steel fiber on the interfacial bond and tensile behaviors of ultra-high-performance concrete | 류두열 |
2014-07 | Combined Effect of Expansive and Shrinkage-Reducing Admixtures on the Properties of Ultra High Performance Fiber-Reinforced Concrete | 류두열 |
2012-01 | Combined Influence of Expansive and Shrinkage Reducing Admixtures on the Shrinkage Behavior of Ultra-High Performance Concrete | 류두열 |
2017-03 | Comparative biaxial flexural behavior of ultra-high-performance fiber-reinforced concrete panels using two different test and placement methods | 류두열 |
2015-12 | Comparative Biaxial Flexural Behavior of Ultra-High-Performance Fiber-Reinforced Concrete Panels Using Two Different Test and Placement Methods | 류두열 |
2017-02 | Comparative flexural behavior of ultra-high-performance concrete reinforced with hybrid straight steel fibers | 류두열 |