1 Azim, R., "The effects of near and far fault accelerograms modification on seismic behaviour of concentrated braced steel frames" 4 (4): 12-21, 2016
2 Mosaberpanah, M. A., "The effect of nano-silica and waste glass powder on mechanical, rheological, and shrinkage properties of UHPC using response surface methodology" 8 (8): 804-811, 2019
3 Chung-Chan Hung, "Tension-stiffening effect in steel-reinforced UHPC composites: Constitutive model and effects of steel fibers, loading patterns, and rebar sizes" Elsevier BV 158 : 269-278, 2019
4 Amirpasha Peyvandi, "Surface-modified graphite nanomaterials for improved reinforcement efficiency in cementitious paste" Elsevier BV 63 : 175-186, 2013
5 An H. Le, "Simplified stress-strain model for circular steel tube confined UHPC and UHPFRC columns" 국제구조공학회 29 (29): 125-138, 2018
6 George Solomos, "Rebar pullout testing under dynamic Hopkinson bar induced impulsive loading" Springer Science and Business Media LLC 43 (43): 247-260, 2010
7 Hongru Zhang, "Pullout behavior of steel fibers with different shapes from ultra-high performance concrete (UHPC) prepared with granite powder under different curing conditions" Elsevier BV 211 : 688-702, 2019
8 Madanipour, V., "Optimization of the component sizing for a plug-in hybrid electric vehicle using a genetic algorithm" 230 (230): 692-708, 2016
9 M. Dehestani, "On discrete element method for rebar-concrete interaction" Elsevier BV 151 : 220-227, 2017
10 Doo-Yeol Yoo, "Nonlinear finite element analysis of ultra-high-performance fiber-reinforced concrete beams" SAGE Publications 26 (26): 735-757, 2017
1 Azim, R., "The effects of near and far fault accelerograms modification on seismic behaviour of concentrated braced steel frames" 4 (4): 12-21, 2016
2 Mosaberpanah, M. A., "The effect of nano-silica and waste glass powder on mechanical, rheological, and shrinkage properties of UHPC using response surface methodology" 8 (8): 804-811, 2019
3 Chung-Chan Hung, "Tension-stiffening effect in steel-reinforced UHPC composites: Constitutive model and effects of steel fibers, loading patterns, and rebar sizes" Elsevier BV 158 : 269-278, 2019
4 Amirpasha Peyvandi, "Surface-modified graphite nanomaterials for improved reinforcement efficiency in cementitious paste" Elsevier BV 63 : 175-186, 2013
5 An H. Le, "Simplified stress-strain model for circular steel tube confined UHPC and UHPFRC columns" 국제구조공학회 29 (29): 125-138, 2018
6 George Solomos, "Rebar pullout testing under dynamic Hopkinson bar induced impulsive loading" Springer Science and Business Media LLC 43 (43): 247-260, 2010
7 Hongru Zhang, "Pullout behavior of steel fibers with different shapes from ultra-high performance concrete (UHPC) prepared with granite powder under different curing conditions" Elsevier BV 211 : 688-702, 2019
8 Madanipour, V., "Optimization of the component sizing for a plug-in hybrid electric vehicle using a genetic algorithm" 230 (230): 692-708, 2016
9 M. Dehestani, "On discrete element method for rebar-concrete interaction" Elsevier BV 151 : 220-227, 2017
10 Doo-Yeol Yoo, "Nonlinear finite element analysis of ultra-high-performance fiber-reinforced concrete beams" SAGE Publications 26 (26): 735-757, 2017
11 Janković, K., "Nanotechnology in Eco-efficient Construction" Woodhead Publishing 13-42, 2019
12 Zemei Wu, "Multi-scale investigation of microstructure, fiber pullout behavior, and mechanical properties of ultra-high performance concrete with nano-CaCO3 particles" Elsevier BV 86 : 255-265, 2018
13 Joško Ožbolt, "Modeling pull-out resistance of corroded reinforcement in concrete: Coupled three-dimensional finite element model" Elsevier BV 46 : 41-55, 2014
14 Lim, N. H. A. S., "Microstructure and strength properties of mortar containing waste ceramic nanoparticles" 43 (43): 5305-5313, 2018
15 Midhuna, M. S., "Mechanical and fracture properties of glass fiber reinforced geopolymer concrete" 6 (6): 29-45, 2018
16 Liu, X. F., "Mechanical Properties of Nano-Particle Modified Ultra-High Performance Fiber Reinforced Concrete" Springer 2020
17 Mohammad Ali Mousavi, "Influence of functionalized MWCNT on microstructure and mechanical properties of cement paste" Springer Science and Business Media LLC 44 (44): 103-, 2019
18 Kowald, T., "Influence of Carbon Nanotubes on the micromechanical properties of a model system for ultra-high performance concrete" 2008
19 Maria S. Konsta-Gdoutos, "Highly dispersed carbon nanotube reinforced cement based materials" Elsevier BV 40 (40): 1052-1059, 2010
20 Michal, M., "High Tech Concrete: Where Technology and Engineering Meet" 1453-1461, 2018
21 Committee, A., "Guide for the Design and Construction of Concrete Reinforced with FRP Bars (ACI 440.1 R-06)"
22 Fei Yan, "Experimental study on bond durability of glass fiber reinforced polymer bars in concrete exposed to harsh environmental agents: Freeze-thaw cycles and alkaline-saline solution" Elsevier BV 116 : 406-421, 2017
23 I. Vilanova, "Experimental study of bond-slip of GFRP bars in concrete under sustained loads" Elsevier BV 74 : 42-52, 2015
24 Van Thang Vu, "Experimental study and modeling of the behavior of partially saturated asphalt concrete under freezing condition" Elsevier BV 163 : 169-178, 2018
25 Weina Meng, "Experimental and Numerical Studies on Flexural Behavior of Ultrahigh-Performance Concrete Panels Reinforced with Embedded Glass Fiber-Reinforced Polymer Grids" SAGE Publications 2592 (2592): 38-44, 2016
26 Zemei Wu, "Effect of nano-SiO2 particles and curing time on development of fiber-matrix bond properties and microstructure of ultra-high strength concrete" Elsevier BV 95 : 247-256, 2017
27 Zhang, X., "Effect of circumferentially nonuniform lateral tension on bond behavior between plain round bars and concrete : Analytical study" 143 (143): 34-54, 2017
28 Shoushtari, A., "Effect of Solution Annealing Heat Treatment on the Corrosion Resistance and Mechanical Properties of an Austenitic Stainless Steel" 1 (1): 17-20, 2013
29 Xiaoyan Liu, "Effect of Nano-CaCO3 on Properties of Cement Paste" Elsevier BV 16 : 991-996, 2012
30 Ali Ziaei-Nia, "Dynamic mix design optimization of high-performance concrete" 국제구조공학회 29 (29): 67-75, 2018
31 Kapilesh Bhargava, "Corrosion-induced bond strength degradation in reinforced concrete—Analytical and empirical models" Elsevier BV 237 (237): 1140-1157, 2007
32 Ana Veljkovic, "Concrete cover effect on the bond of GFRP bar and concrete under static loading" Elsevier BV 124 : 40-53, 2017
33 Deng Zong-cai, "Bonding between high strength rebar and reactive powder concrete" 사단법인 한국계산역학회 13 (13): 411-421, 2014
34 Kâzım, T., "Bond strength of tension lap-splices in full scale self-compacting concrete beams" 32 (32): 377-386, 2014
35 Yiyan Lu, "Bond behavior of steel fibers reinforced self-stressing and self-compacting concrete filled steel tube columns" Elsevier BV 158 : 894-909, 2018
36 M.S. Muhd Norhasri, "Applications of using nano material in concrete: A review" Elsevier BV 133 : 91-97, 2017
37 Rezaee, M., "An analytical solution for vibration analysis of carbon nanotube conveying viscose fluid embedded in visco-elastic medium" 229 (229): 644-650, 2015
38 Ismail Unsal, "A study on load-deflection behavior of two-span continuous concrete beams reinforced with GFRP and steel bars" 국제구조공학회 63 (63): 629-637, 2017