SCI Journal Papers (250)

SCI Journal Papers

(“*” means corresponding author)

[2024]
  • 250. Limwibul, V., Jirawattanasomkuk, T., Jongvivatsakul, P., Likitlersuang, Dai, J.G. and Ueda, T. (2024), Stress-strain behavior of pre-damaged concrete confined with natural fibre reinforced polymer, Structures, 69, 107434. https://doi.org/10.1016/j.istruc.2024.107434
  • 249. Teng, J.C., Yin, Z.Y.*, Chen, W.B., Song, D.B. and Dai, J.G. (2024), Interface Shear Behavior of Sandy Soil-FRP with Epoxy Hardness Effect and Abrasion, ASCE Journal of Composites for Construction, 28(6), 04024064. https://doi.org/10.1061/JCCOF2.CCENG-4707
  • 248. Jiang, C.C., He, L.Y., Xuan, Q.D., Liao, Y., Dai, J.G. and Lei, D.Y.* (2024), Phase-change VO2-based thermochromic smart windows, Light: Science & Applications, 13: 255 (2024). https://www.nature.com/articles/s41377-024-01560-9
  • 247. Zhao, Q., Iwama, K., Dai, J.G., Liu, J., Zhang, D.X., Maekawa, K. and Zhao, X.L.*(2024), Deterioration modelling of GFRP-reinforced cement-based concrete infrastructure in service under the natural inland atmospheric environment, Construction and Building Materials, 447, 138005, https://doi.org/10.1016/j.conbuildmat.2024.138005 
  • 246. Zhao, J., Wang, A.G.*, Zhang, Z.H.*, Dai, J.G., Liu, K.W.,  Wang, Y.M., Chu, Y.J. and Sun, D.S.*(2024), Hybrid fiber reinforced ultra-high performance coal gangue geopolymer concrete (UHPGC): Mechanical properties, enhancement mechanism, carbon emission and economic analysis, Journal of Building Engineering, 96, 110428. https://doi.org/10.1016/j.jobe.2024.110428 
  • 245. Ma, X., Fu, Y., Yang, N., Hu, X., Dai, J.G., Fei, B. and Lei, D.Y.* (2024), Fluorescence-enhanced light-blue bilayer radiative cooling coatings, Journal of Materials Chemistry A, 12, 20921.  https://doi.org/10.1039/D4TA03045A
  • 244. Alrefaei, Y., Refaat, Omar A., Xue, S.Z., Liew, K.M.  and Dai, J.G.* (2024), A comparative study of wet-mix vs. dry-mix to prepare geopolymer artificial aggregates utilizing municipal solid waste incineration bottom ash (IBA) via crushing technique, Journal of Building Engineering, 96, 110538.  https://doi.org/10.1016/j.jobe.2024.110538
  • 243. Ahmad R. Muhammad, Medepalli, S., Wang, T.*, Dai, J.G.*, Zheng, Y.Q. and, Ishida, T. (2024), Effect of alkali-hydroxide on hydration kinetics and microstructure of high-volume fly ash blended cement pastes, Cement and Concrete Research, 185, 107641. https://doi.org/10.1016/j.cemconres.2024.107641
  • 242. Zhang, P., Manzano, H., Kai, M.F.* and Dai, J.G.* (2024), Behaviors and influences of water confined within the CSH interlayer: A quenched solid density functional theory study, Cement and Concrete Research, 184, 107600. https://doi.org/10.1016/j.cemconres.2024.107600
  • 241. Zhao, J., Wang, A.G.*, Zhu, Y.C.*, Dai, J.G., Xu, Q., Liu, K.W., Hao, F.J. and Sun, D.S. (2024), Manufacturing ultra-high performance geopolymer concrete (UHPGC) with activated coal gangue for both binder and aggregate, Composites Part B, 284, 111723. https://doi.org/10.1016/j.compositesb.2024.111723
  • 240. Mei, S.J., Bai, Y.L.* and Dai, J.G. (2024),  Experimental and numerical investigations on shear behavior of RC beam strengthened with U-wrapped PET FRP, Composite Structures, 341, 118366., https://doi.org/10.1016/j.compstruct.2024.118211
  • 239. Mei, S.J., Bai, Y.L.* and Dai, J.G. (2024), Shear strengthening of reinforced concrete beams completely wrapped by large rupture strain (LRS) FRP, Engineering Structures, 314, 118361, https://doi.org/10.1016/j.engstruct.2024.118361
  • 238. Qiu, M.H., Qian, Y.* and Dai, J.G. (2024), Enhancing the flexural performance of concrete beams with 3D-printed UHP-SHCC permanent formwork via graded fiber volume fraction, Composite Structures, 341, 118211. https://doi.org/10.1016/j.compstruct.2024.118211
  • 237. Ma, X., Fu, Y., Yang, N., Dai, J.G. and Lei, D.Y.* (2024), Fluorescence-enabled colored bilayer sub-ambient radiative cooling coatings, Advanced Optical Materials, 2024, 2303296, 1-8, https://doi.org/10.1002/adom.202303296
  • 236. Yang, N., Liu, J.H., Kai, M.F.*, Dai, J.G.* (2024) Geopolymer-based radiative cooling: Tailoring surface hydrophobic properties while retaining optical characteristics, Construction and Building Materials, 428, 136373. https://doi.org/10.1016/j.conbuildmat.2024.136373
  • 235. Iwama, K., Kai, M.F.*, Dai, J.G.*, Zhang, P., Wang, P., Poon, C.S., Leung, Christopher, K.Y. and Maekawa, K. (2024), Physicochemical-mechanical simulation of the short- and long-term performance of FRP reinforced concrete beams under marine environments, Engineering Structures, 308, 118051. https://doi.org/10.1016/j.engstruct.2024.118051
  • 234. Liu, Y.L., Hong, J.Q., Deng, J., Guo, D.* and Dai, J.G.* (2024), Structural performance of RC beams strengthened with hybrid bonded FRP, Journal of Building Engineering, 88, 109178. https://doi.org/10.1016/j.jobe.2024.109178
  • 233. Yang, N., Xue, S.Z., Ahmad, Muhammad, R., Xuan, Q.D., Kai, M.F.* and Dai, J.G.* (2024), Development of red mud-modified geopolymer coating with radiative cooling effect for footway application, Journal of Cleaner Production, 450, 141915, https://doi.org/10.1016/j.jclepro.2024.141915
  • 232. Zhang, W.W., Yu, H., Yin, B.B.*, Akbar, A., Dai, J.G., Zhang, X.L. and Liew, K.M.* (2024), Effects of recycled carbon fibers on mechanical and piezoresistive properties and environmental impact in alkali-activated cementitious materials, Journal of Cleaner Production, 450, 141902, https://doi.org/10.1016/j.jclepro.2024.141902 
  • 231. Kai, M.F., Liu, J.H., Tang, Z. and  Dai, J.G.* (2024), Meso-mechanics of packed C-S-H colloids by nanoindentation: A coarse-grained molecular dynamics study, Construction and Building Materials, 423, 135856. https://doi.org/10.1016/j.conbuildmat.2024.135856
  • 230. Xuan Q.D., Lao, J.C., Zhao, B., Li, G.Q., Pei, G., Niu, J.L. and Dai, J.G.*(2024), Experimental and numerical investigation on energy-saving performance of radiative cooling coating for metal container office, Energy and Buildings, 310, 114084, https://doi.org/10.1016/j.enbuild.2024.114084
  • 229. Zhang. P. and Dai, J.G. *(2024), New mesoscale phase field model for analysis of FRP-to-concrete bonded joints, ASCE Journal of Composites for Construction, 28(3), 04024007. https://ascelibrary.org/doi/10.1061/JCCOF2.CCENG-4255 
  • 228. Hayat U., Kai, M.F.*, Hu-Bao, A., Liew, J.X. and Dai, J.G. *(2024), Atomic-level investigation into the transport of NaCl solution in porous cement paste: The effects of pore size and temperature, Journal of Building Engineering, 86, 108976, https://doi.org/10.1016/j.jobe.2024.108976 
  • 227. Hao, Z.H., Zeng, J.J., Chen, G.M., Dai, J.G.* and Chen, J.F.* (2024), Durability of FRP-to-concrete bonded joints subjected to 110 months accelerated laboratory and field exposure, Engineering Structures, 305, 117681. https://doi.org/10.1016/j.engstruct.2024.117681
  • 226.  Alrefaei, Y., Ali, H.A., Lao, J.C., Dai, J.G.* and Poon, C.S. (2024), Micro and macro properties of silico-aluminophosphate geopolymer: Role of incinerated sewage sludge ash (ISSA), Construction and Building Materials, 416, 135231. https://doi.org/10.1016/j.conbuildmat.2024.135231 
  • 225.  Liu, W.H., Kai, M.F.*, Zhang, P., Yu, T., Dai, J.G.*(2024), Three-dimensional finite element modeling of debonding failure of skew FRP-bonded concrete joints, Engineering Structures, 303, 1117537. https://doi.org/10.1016/j.engstruct.2024.117537
  • 224.  Dong B.Q., Chen, C.F., Dai, J.G., Huang, B.T., Hong, S.X., Wang, Y.S.* (2024), Upcycling of lime mud into lightweight artificial aggregates through the crushing technique, Journal of Cleaner Production, 437, 140755. https://doi.org/10.1016/j.jclepro.2024.140755
  • 223.  Zhao, Q., Zhao, X.L., Zhang, D.X.*, Dai, J.G. and Xue, X.Y. (2024), Degradation of GFRP bars with epoxy and vinyl ester matrices in a marine concrete environment: An experimental study and theoretical modeling, ASCE, Journal of Composites for Construction, 28(2), 04024004, https://doi.org/10.1061/JCCOF2.CCENG-447
  • 222.  Lan, J. Dong, Y., Kai, M.F.*, Hou, H. and Dai, J.G.* (2024), Investigation of waste alkali-activated cementing material using municipal solid waste incineration fly ash and dravite as precursors: Mechanisms, performance, and on-site application, Journal of Hazardous Materials, 465, 133416. https://doi.org/10.1016/j.jhazmat.2023.133416
  • 221.  Wang, B., Luo, B., Yan, Q., Yang, Y., Bao, W., Qiu, Z., Fan, H.* and Dai, J.G. (2024), Effects of lattice configuration on multifunctionality of C-sandwich radome, International Journal of Mechanical Sciences, 267, 1088972, https://doi.org/10.1016/j.ijmecsci.2024.108972
  • 220.  Xue, Z. Y., Zhang, D.W.*, Wu, X., Dai, J.G. and Ueda, T. (2024), Fatigue performance of prefabricated composite T-beams under cyclic overloading: An experimental study, Structural Concretehttps://doi.org/10.1002/suco.202300474
  • 219. Khan, M., Lao, J., Ahmad, M.* and Dai, J.G.* (2024), Influence of high temperatures on the mechanical and microstructural properties of hybrid steel-basalt fibers based ultra-high-performance concrete (UHPC), Construction and Building Materials, 411(2024), 134387. https://doi.org/10.1016/j.conbuildmat.2023.134387
  • 218. Zhu, J.X., Weng, K.F., Huang, B.T. *,  Xu, L.Y., and Dai, J.G.* (2024), Ultra-high-strength Engineering Cementitious Composites (UHS-ECC) Panel Reinforced with FRP Bar/Grid: Development and Flexural Performance, Engineering Structures, 117193, https://doi.org/10.1016/j.engstruct.2023.117193
  • 217. Yang, N., Xuan, Q.D.*, Fu,  Y., Ma, X., Lei, D.Y., Niu, J.L. and Dai, J.G.* (2024), Phosphate activated geopolymer-based coating with high temperature resistance for sub-ambient radiative cooling, Sustainable Cities and Society, 100, Article 104992. https://doi.org/10.1016/j.scs.2023.104992
[2023]
  • 216. Zhang, B.F., Feng, Y., Xie, J.H.*, Dai, J.G., Chen, W., Xue, Z.X., Li, L.J., Li, Y., and Li, J.L. (2023), Effects of pretreated recycled powder substitution on mechanical properties and microstructures of alkali-activated cement, Concrete and Building Materials, 406, Article 133360. https://doi.org/10.1016/j.conbuildmat.2023.133360
  • 215. Guo, D., Wang, H.P., Liu, Y.L., Gao, W.Y.* and Dai, J.G.*(2023), Structural behavior of CFRP-strengthened steel beams at different service temperatures: Experimental study and FE modeling, Engineering Structures, 293, Article 116646,  https://doi.org/10.1016/j.engstruct.2023.116646 
  • 214. Das, S. Chandra, Zheng , H.B., Zhao, X.L. and Dai, J.G. *(2023), Corrosion inhibition of steel reinforcements in seawater sea sand concrete by alkali-activated slag based coatings, Construction and Building Materials, 394, Article 132210, https://doi.org/10.1016/j.conbuildmat.2023.132210 
  • 213. Liu, Y.L., Li, C.F., Zhai, H.X., Ahmad, Riaz, M., Guo, D. and Dai, J.G. *(2023), Production and performance of CO2 modified foam concrete, Construction and Building Materials, 389, Article 121671.  https://doi.org/10.1016/j.conbuildmat.2023.131671
  • 212. Kai, M.F., Hou, D.S., Sanchez, F., Poon, C.S. and Dai, J.G.* (2023), Nanoscale insights into the influence of seawater (NaCl) on the behavior of calcium silicate hydrate, The Journal of Physical Chemistry C, 127(18), 8735-8750. https://doi.org/10.1021/acs.jpcc.3c00148
  • 211. Zheng, J.J., Chen, S.P., Feng, P., Zhuge, Y.*, Peng, K.D., Dai, J.G.* and Fan, T.H., FRP bar-reinforced ultra-high-performance concrete plates with a grouting sleeve connection: Development and flexural behavior, Engineering Structures, 287, Article 116164. https://doi.org/10.1016/j.engstruct.2023.116164 (Editors Featured Article)
  • 210. Khan, M. Lao, J.C., Ahmed M.R., Kai, M.F* and Dai, J.G.*(2023), “The role of calcium aluminate cement in developing an efficient ultra-high performance concrete resistant to explosive spalling under high temperatures”, Construction and Building Materials, 384, Article 131469. https://doi.org/10.1016/j.conbuildmat.2023.131469 
  • 209. Liu, W.H., Zhang, L.W. and Dai, J.G.*(2023), A physics-informed and data-enhanced tensile stress strain model for UHPFRC, Engineering Structures, 285, Article 115989, https://doi.org/10.1016/j.engstruct.2023.115989
  • 208.Li, J., Fu, Y., Zhou, J., Yao, K., Ma, X., Gao, S., Wang, Z., Dai, J.G., Lei, D.* and Yu, X.* (2023), Ultrathin, soft, radiative cooling interfaces for advanced thermal management in skin electronics, Science Advances, 9(14), Article No. eadg1837, DOI: 10.1126/sciadv.adg1837 
  • 207. Lei, L.Q., Shi, S., Wang, D., Dai, J.G., Fu, S.H. & Hu, J.L. (2023), Recent advances in thermoregulatory clothing: Materials,  mechanisms, and perspectives, ACS Nano, 17(3), 1803-1830. https://doi.org/10.1021/acsnano.2c10279
  • 206. Lao, J.C., Huang, B.T.*, Xu,  L.Y., Khan, M., Fang, Y. & Dai, J.G.* (2023) , “Seawater sea-sand engineered geopolymer composites (EGC) with high strength and high ductility”, Cement and Concrete Composites, 138, Article 104998, https://doi.org/10.1016/j.cemconcomp.2023.104998
  • 205. Bai, Y.L. , Yang, H.L., Mohammadi, M.* & Dai, J.G. (2023), 3D FE analysis for buckling behavior of longitudinal reinforcement embedded in LRS FRP-confined concrete under axial compression, Composite Structures, 312, Article 116857, https://doi.org/10.1016/j.compstruct.2023.116857
  • 204. Ahmad,  R. Muhammad, Chandra Sekhar Das,  Khan, M. & Dai, J.G. * (2023), “Development of low-carbon alkali-activated materials solely activated by flue gas residues (FGR) waste from incineration plants”, Journal of Cleaner Production, 397, Article 136597, https://doi.org/10.1016/j.jclepro.2023.136597
  • 203. Zhang, P., Dai, J.G.*, Chandra Sekhar Das, &  Zheng, J.J. (2023), “A fully coupled meso-scale electro-chemo-mechanical phase field method for corrosion-induced fracture in concrete”, International Journal of Solids and Structures, 267, Article 112165,  https://doi.org/10.1016/j.ijsolstr.2023.112165 
  • 202. Ahmad, R. Muhammad, Khan, M., Wang, A.G., Zhang, Z.H., & Dai, J.G.* (2023), “Alkali-activated materials partially activated using flue gas residues: An insight into reaction products.”, Construction and Building Materials, 371, 130760. https://doi.org/10.1016/j.conbuildmat.2023.130760
  • 201. Qian L.P., Ahmad, R. Muhammad, Lao, J.C., & Dai, J.G.* (2023), “Recycling of red mud and flue gas residues in geopolymer aggregates (GPA) for sustainable concrete”. Resources, Conservation & Recycling, 191, Article 106893. https://doi.org/10.1016/j.resconrec.2023.106893
  • 200. Mei, S.J., Bai, Y.L.*, Dai, J.G., & Han, Q.  (2023), Seismic behaviour of shear critical square RC columns strengthened by large rupture strain FRP, Engineering Structures, 280, Article 115679, https://doi.org/10.1016/j.engstruct.2023.115679
  • 199. Lao, J.C., Xu, L.Y., Huang, B.T.*, Zhu, J.X., Khan, M., & Dai, J.G.* (2023) “Utilization of Sodium Carbonate Activator in Strain-Hardening Ultra-High-Performance Geopolymer Concrete (SH-UHPGC)”, Frontiers in Materials, 10, Article 1142237, https: //DOI 10.3389/fmats.2023.1142237
  • 198. Kai, M.F., Sanchez, F., Hou, D.S., & Dai, J.G.* (2023), Nanoscale insights into the interfacial characteristics between calcium silicate hydrates and silica, Applied Surface Science, 616, 156478. https://doi.org/10.1016/j.apsusc.2023.156478
  • 197. Wang, X., Wang, A.*, Zhang, Z.*, Dai, J.G., Liu, K., Chu, Y., Guan, Y., & Sun, D. (2023), Enhancing the performance of alkali-activated material based coral concrete through microbubble aeration clean technology, Composites Part B: Engineering, 252, Article 110519,https://doi.org/10.1016/j.compositesb.2023.110519
  • 196. Qian, L.P., Huang, B.T., Xu, L.Y.*, & Dai, J.G.* (2023), Concrete made with high-strength artificial gepolymer aggregates: Mechanical properties and failure mechanisms, Construction and Building Materials, 367, Article 130318, https://doi.org/10.1016/j.conbuildmat.2023.130318
  • 195. Bai, Y.L., Zhang, Y.F., Sun, P.X., Dai, J.G.*, & Ozbakkaloglu, T. (2023), “Experimental and Numerical Study on Seismic Performance of PEN FRP-Jacketed Circular RC  Columns”.  ASCE Journal  of Composites for Construction, 27(2), Article 04023001, https://ascelibrary.org/doi/10.1061/JCCOF2.CCENG-3983
  • 194. Lao, J.C., Huang, B.T.*, Fang, Y., Xu, L.Y., Dai, J.G.*, & Shah, S.P. (2023), “Strain-hardening alkali-activated fly ash/slag composites with ultra-high compressive strength and ultra-high tensile ductility”. Cement and Concrete Research, 165, Article 107075, https://doi.org/10.1016/j.cemconres.2022.107075 
  • 193. Huang, J.Q., Kumar, S., & Dai, J.G.* (2023), “Flexural performance of steel-reinforced geopolymer concrete one-way slabs: Experimental and numerical investigations”. Construction and Building Materials, 366, Article 130098,   https://doi.org/10.1016/j.conbuildmat.2022.130098
  • 192. Xu, L.Y., Huang, B.T.*, Lao, J.C., Yao, J., Li, Victor C., & Dai. J.G.* (2023), “Tensile over-saturated cracking of ultra-high-strength engineered cementitious composites (UHS-ECC) with artificial geopolymer aggregates”. Cement and Concrete Composites, 136, Article 104896, https://doi.org/10.1016/j.cemconcomp.2022.104896 
  • 191. Guo, D., Liu, Y.L., Gao, W.Y.*, & Dai, J.G.* (2023), “Bond behavior of CFRP-to-steel bonded joints at different service temperatures: Experimental study and FE modeling”. Construction and Building Materials, 362, Article 129836, https://doi.org/10.1016/j.conbuildmat.2022.129836
  • 190. Peng, K.D., Huang, J.Q., Huang, B.T.*, Xu, L.Y., & Dai, J.G.* (2023), “Shear strengthening of reinforced concrete beams using geopolymer-bonded small-diameter FRP bars”. Composite Structures, 305, Article 116513. https://doi.org/10.1016/j.compstruct.2022.116513  
  • 189.Ahmad, M. R., Qian, L.P., Fang, Y., Wang A., & Dai, J.G.* (2023), “A multiscale study on gel composition of hybrid alkali-activated materials partially utilizing air pollution control residue as an activator”. Cement and Concrete Composites, 136, Article 104856, https://doi.org/10.1016/j.cemconcomp.2022.104856
  • 188. Song, Z.W., Lai, S.K.*, & Dai, J.G. (2023), “Refined models for free vibration analysis of elastic plates with part-through surface cracks”. Thin-Walled Structures, 182, Article 110312, https://doi.org/10.1016/j.tws.2022.110312
  • 187. Guo, D., Gao, W.-Y.*, Liu, Y.-L., & Dai, J.-G*. (2023).”Intermediate crack-induced debonding in CFRP-retrofitted notched steel beams at different service temperatures: Experimental test and finite element modeling”. Composite Structures, 304, Article 116388, https://doi.org/10.1016/j.compstruct.2022.116388.
  • 186. Fang, Y., Ahmad, M. R., Lao, J.-C., Qian, L.-P., & Dai, J.-G*. (2023).”Development of artificial geopolymer aggregates with thermal energy storage capacity”. Cement and Concrete Composites, 135. Article 104834,   https://doi.org/10.1016/j.cemconcomp.2022.104834
  • 185. Yang, N., Fu, Y., Xue, X., Lei, D., & Dai, J. G.* (2023). “Geopolymer‐based sub‐ambient daytime radiative cooling coating”. Ecomat, 5(2), Article e12284. https://doi.org/10.1002/eom2.12284 (The Hong Kong Polytechnic University 85th anniversary special issue—Towards carbon neutrality)
[2022]
  • 184. Zhu, J.-X., Xu, L.-Y., Huang, B.-T., Weng, K.-F., & Dai, J.-G*. (2022). “Recent developments in Engineered/Strain-Hardening Cementitious Composites (ECC/SHCC) with high and ultra-high strength”. Construction and Building Materials, 342, Article 127956. https://doi.org/10.1016/j.conbuildmat.2022.127956
  • 183. Zhu, H., Wang, Q., Dai, J.-G*., Wang, C., & Wu, G. (2022). “Innovative additional aluminum alloy ribs anchorage for improving the bond reliability of pretensioned CFRP bar: A feasibility study”. Composite Structures, 280, Article 114817. https://doi.org/10.1016/j.compstruct.2021.114817
  • 182. Zhou, H., Gao, W.-Y*., Biscaia, H. C., Wei, X.-J., & Dai, J.-G. (2022). “Debonding analysis of FRP-to-concrete interfaces between two adjacent cracks in plated beams under temperature variations”. Engineering Fracture Mechanics, 263, Article 108307. https://doi.org/10.1016/j.engfracmech.2022.108307
  • 181. Zeng, J.-J., Feng, P., Dai, J.-G.*, & Zhuge, Y.* (2022). “Development and behavior of novel FRP-UHPC tubular members”. Engineering Structures, 266, Article 114540, https://doi.org/10.1016/j.engstruct.2022.114540
  • 180. Zeng, J.-J., Chen, S.-P., Peng, K.-D., & Dai, J.-G.* (2022). “Novel FRP micro-bar reinforced UHPC permanent formwork for circular columns: Concept and compressive behavior”. Composite Structures, 285, Article 115268. https://doi.org/10.1016/j.compstruct.2022.115268
  • 179. Yang, N., Das, C. S., Xue, X., Li, W., & Dai, J.-G.* (2022). “Geopolymer coating modified with reduced graphene oxide for improving steel corrosion resistance”. Construction and Building Materials, 342, Article 127942. https://doi.org/10.1016/j.conbuildmat.2022.127942
  • 178. Xu, L.-Y., Huang, B.-T.*, Li, V. C., & Dai, J.-G.* (2022). “High-strength high-ductility Engineered/Strain-Hardening Cementitious Composites (ECC/SHCC) incorporating geopolymer fine aggregates”. Cement and Concrete Composites, 125, Article 104296. https://doi.org/10.1016/j.cemconcomp.2021.104296
  • 177. Xu, L.-Y., Huang, B.-T.*, Lao, J.-C., & Dai, J.-G.* (2022). “Tailoring strain-hardening behavior of high-strength Engineered Cementitious Composites (ECC) using hybrid silica sand and artificial geopolymer aggregates”. Materials & Design, 220, Article 110876. https://doi.org/10.1016/j.matdes.2022.110876
  • 176. Xu, L.-Y., Huang, B.-T.*, Lan-Ping, Q., & Dai, J.-G.* (2022). “Enhancing long-term tensile performance of Engineered Cementitious Composites (ECC) using sustainable artificial geopolymer aggregates”. Cement and Concrete Composites, 133, Article 104676. https://doi.org/10.1016/j.cemconcomp.2022.104676
  • 175. Wang, X.-h., Zhang, S.-r., Dai, J.-G., & Wang, C.* (2022). “Evaluation of base damage and stability of concrete gravity dam subjected to underwater explosion”. Structures, 38, 1502-1514. https://doi.org/10.1016/j.istruc.2022.03.012
  • 174. Qian, L.-P., Xu, L.-Y., Huang, B.-T., & Dai, J.-G.* (2022). “Pelletization and properties of artificial lightweight geopolymer aggregates (GPA): One-part vs. two-part geopolymer techniques”. Journal of Cleaner Production, 374, Article 133933. https://doi.org/10.1016/j.jclepro.2022.133933
  • 173. Qian, L.-P., Xu, L.-Y., Alrefaei, Y., Wang, T., Ishida, T., & Dai, J.-G.* (2022). “Artificial alkali-activated aggregates developed from wastes and by-products: A state-of-the-art review”. Resources, Conservation and Recycling, 177, Article 105971. https://doi.org/10.1016/j.resconrec.2021.105971
  • 172. Peng, K.-D., Zeng, J.-J.*, Huang, B.-T.*, Huang, J.-Q., Zhuge, Y., & Dai, J.-G.* (2022). “Bond performance of FRP bars in plain and fiber-reinforced geopolymer under pull-out loading”. Journal of Building Engineering, 57, Article 104893, https://doi.org/10.1016/j.jobe.2022.104893
  • 171. Peng, K.-D., Huang, B.-T.*, Xu, L.-Y., Hu, R.-L., & Dai, J.-G.* (2022). “Flexural strengthening of reinforced concrete beams using geopolymer-bonded small-diameter CFRP bars”. Engineering Structures, 256, Article 113992. https://doi.org/10.1016/j.engstruct.2022.113992
  • 170. Mohammadi, M., Bai, Y.-L.*, Yang, H.-L., Lin, G., Dai, J.-G., & Zhang, Y.-F. (2022). “FE modeling of Non-circular LRS FRP-confined concrete columns”. Composite Structures, 286, Article 115314. https://doi.org/10.1016/j.compstruct.2022.115314
  • 169. Ma, X., Fu, Y., Portniagin, A., Yang, N., Liu, D., Rogach, A. L., Dai, J.-G., & Lei, D.* (2022). “Effects of Stokes shift and Purcell enhancement on fluorescence-assisted radiative cooling”. Journal of Materials Chemistry A, 10(37), 19635-19640. https://doi.org/10.1039/d2ta02259a
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  • 87. Xue, X., Yang, Z., Li, Y., Sun, P., Feng, Y., He, Z., Qu, T., Dai, J.-G.*, Zhang, T., Qin, J., Xu, L., & Zhang, W. (2018). “Superhydrophobic self-cleaning solar reflective orange-gray paint coating”. Solar Energy Materials and Solar Cells, 174, 292-299. https://doi.org/10.1016/j.solmat.2017.09.014
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  • 85. Wang, Y. S., Dai, J. G.*, Wang, L., Tsang, D. C. W.*, & Poon, C. S. (2018). “Influence of lead on stabilization/solidification by ordinary Portland cement and magnesium phosphate cement”. Chemosphere, 190, 90-96. https://doi.org/10.1016/j.chemosphere.2017.09.114
  • 84. Wang, Y.-S., Provis, J. L.*, & Dai, J.-G.* (2018). “Role of soluble aluminum species in the activating solution for synthesis of silico-aluminophosphate geopolymers”. Cement and Concrete Composites, 93, 186-195. https://doi.org/10.1016/j.cemconcomp.2018.07.011
  • 83. Wang, L., Yu, K., Li, J.-S., Tsang, D. C. W.*, Poon, C. S., Yoo, J.-C., Baek, K., Ding, S., Hou, D., & Dai, J.-G. (2018). “Low-carbon and low-alkalinity stabilization/solidification of high-Pb contaminated soil”. Chemical Engineering Journal, 351, 418-427. https://doi.org/10.1016/j.cej.2018.06.118
  • 82. Wang, L., Yu, I. K. M., Tsang, D. C. W.*, Yu, K., Li, S., Sun Poon, C., & Dai, J.-G. (2018). “Upcycling wood waste into fibre-reinforced magnesium phosphate cement particleboards”. Construction and Building Materials, 159, 54-63. https://doi.org/10.1016/j.conbuildmat.2017.10.107
  • 81. Wang, C. F.*, Wen, B., Dai, J. G., Liu, J. X., & Liu, Y. Z. (2018). “Experimental Study on Force Sensitivity of the Conductivity of Carbon Nanotubes-Modified Epoxy Resins”. Materials (Basel), 11(7), Article 1174. https://doi.org/10.3390/ma11071174
  • 80. Tang, N.*, Deng, Z., Dai, J.-G., Yang, K., Chen, C., & Wang, Q. (2018). “Geopolymer as an additive of warm mix asphalt: Preparation and properties”. Journal of Cleaner Production, 192, 906-915. https://doi.org/10.1016/j.jclepro.2018.04.276
  • 79. Shang, J., Dai, J.-G., Zhao, T.-J., Guo, S.-Y.*, Zhang, P., & Mu, B. (2018). “Alternation of traditional cement mortars using fly ash-based geopolymer mortars modified by slag”. Journal of Cleaner Production, 203, 746-756. https://doi.org/10.1016/j.jclepro.2018.08.255
  • 78. Long, Y.-L., Li, W.-T., Dai, J.-G.*, & Gardner, L.* (2018). “Experimental study of concrete-filled CHS stub columns with inner FRP tubes”. Thin-Walled Structures, 122, 606-621. https://doi.org/10.1016/j.tws.2017.10.046
  • 77. Gao, W. Y., Dai, J.-G.*, & Teng, J. G. (2018). “Three-Level Fire Resistance Design of FRP-Strengthened RC Beams”. Journal of Composites for Construction, 22(3), Article 05018001. https://doi.org/10.1061/(asce)cc.1943-5614.0000840
  • 76. Gao, W.-Y., Hu, K.-X., Dai, J.-G.*, Dong, K., Yu, K.-Q., & Fang, L.-J. (2018). “Repair of fire-damaged RC slabs with basalt fabric-reinforced shotcrete”. Construction and Building Materials, 185, 79-92. https://doi.org/10.1016/j.conbuildmat.2018.07.043
  • 75. Ding, Y., Dai, J.-G.*, & Shi, C.-J. (2018). “Fracture properties of alkali-activated slag and ordinary Portland cement concrete and mortar”. Construction and Building Materials, 165, 310-320. https://doi.org/10.1016/j.conbuildmat.2017.12.202
  • 74. Ding, Y., Dai, J.-G.*, & Shi, C.-J. (2018). “Mechanical Properties of Alkali-Activated Concrete Subjected to Impact Load”. Journal of Materials in Civil Engineering, 30(5), Article 04018068. https://doi.org/10.1061/(asce)mt.1943-5533.0002256
  • 73. Alrefaei, Y., & Dai, J.-G.* (2018). “Tensile behavior and microstructure of hybrid fiber ambient cured one-part engineered geopolymer composites”. Construction and Building Materials, 184, 419-431. https://doi.org/10.1016/j.conbuildmat.2018.07.012
[Before 2018 ]
  • 72. Zhu, W., François, R., Poon, C. S., & Dai, J.-G.* (2017). “Influences of corrosion degree and corrosion morphology on the ductility of steel reinforcement”. Construction and Building Materials, 148, 297-306. https://doi.org/10.1016/j.conbuildmat.2017.05.079
  • 71. Yu, H., Bai, Y. L.*, Dai, J. G., & Gao, W. Y. (2017). “Finite Element Modeling for Debonding of FRP-to-Concrete Interfaces Subjected to Mixed-Mode Loading”. Polymers (Basel), 9(9), Article 438. https://doi.org/10.3390/polym9090438
  • 70. Xue, X., Li, Y., Yang, Z., He, Z., Dai, J.-G.*, Xu, L., & Zhang, W. (2017). “A systematic investigation of the waterproofing performance and chloride resistance of a self-developed waterborne silane-based hydrophobic agent for mortar and concrete”. Construction and Building Materials, 155, 939-946. https://doi.org/10.1016/j.conbuildmat.2017.08.042
  • 69. Liu, L.N., Dai, J.G., Zhao, T.J., Guo, S.Y.*, Hou, D.S., Zhang, P., Shang, J. and Wang, S. (2017), “A novel Zn(II) dithiocarbamate/ZnS nanocomposite for highly efficient Cr6+ removal from aqueous solutions”, RSC Advance, 7(56), 35075-35085, https://doi.org/10.1039/C7RA04259K.
  • 68. Xu, W., Dai, J.-G.*, Ding, Z., & Wang, Y. (2017). “Polyphosphate-modified calcium aluminate cement under normal and elevated temperatures: Phase evolution, microstructure, and mechanical properties”. Ceramics International, 43(17), 15525-15536. https://doi.org/10.1016/j.ceramint.2017.08.102
  • 67. Wang, Y.-S., Dai, J.-G.*, Ding, Z., & Xu, W.-T. (2017). “Phosphate-based geopolymer: Formation mechanism and thermal stability”. Materials Letters, 190, 209-212. https://doi.org/10.1016/j.matlet.2017.01.022
  • 66. Wang, Y.-S., & Dai, J.-G.* (2017). “X-ray computed tomography for pore-related characterization and simulation of cement mortar matrix”. Ndt & E International, 86, 28-35. https://doi.org/10.1016/j.ndteint.2016.11.005
  • 65. Wang, Y.-S., & Dai, J.-G.* (2017). “Use of magnesia sand for optimal design of high performance magnesium potassium phosphate cement mortar”. Construction and Building Materials, 153, 385-392. https://doi.org/10.1016/j.conbuildmat.2017.07.099
  • 64. Wang, L., Yu, I. K. M., Tsang, D. C. W.*, Li, S., Li, J.-s., Poon, C. S., Wang, Y.-S., & Dai, J.-G. (2017). “Transforming wood waste into water-resistant magnesia-phosphate cement particleboard modified by alumina and red mud”. Journal of Cleaner Production, 168, 452-462. https://doi.org/10.1016/j.jclepro.2017.09.038
  • 63. Wang, L., Chen, S. S., Tsang, D. C. W.*, Poon, C.-S., & Dai, J.-G. (2017). “CO 2 curing and fibre reinforcement for green recycling of contaminated wood into high-performance cement-bonded particleboards”. Journal of CO2 Utilization, 18, 107-116. https://doi.org/10.1016/j.jcou.2017.01.018
  • 62. Wang, H.-L., Dai, J.-G., & Sun, X.-Y.* (2017). “Chloride transport in concrete under sustained flexural loading”. Magazine of Concrete Research, 69(5), 245-254. https://doi.org/10.1680/jmacr.16.00247
  • 61. Li, T., Zhang, Y.*, & Dai, J.-G. (2017). “Flexural behavior and microstructure of hybrid basalt textile and steel fiber reinforced alkali-activated slag panels exposed to elevated temperatures”. Construction and Building Materials, 152, 651-660. https://doi.org/10.1016/j.conbuildmat.2017.07.059
  • 60. Huang, H., Wang, W.-W.*, Dai, J.-G., & Brigham, J. C. (2017). “Fatigue Behavior of Reinforced Concrete Beams Strengthened with Externally Bonded Prestressed CFRP Sheets”. Journal of Composites for Construction, 21(3), Article 04016108. https://doi.org/10.1061/(asce)cc.1943-5614.0000766
  • 59. Guo, S.-Y., Dai, J.-G.*, Zhao, T.-J., Hou, S.-D., Zhang, P., Wang, P.-G., & Sun, G.-X. (2017). “A novel microporous amorphous-ZnO@TiO2/graphene ternary nanocomposite with enhanced photocatalytic activity”. RSC Advances, 7(58), 36787-36792. https://doi.org/10.1039/c7ra06232j
  • 58. Gao, W.-Y., Dai, J.-G.*, & Teng, J.-G. (2017). “Fire resistance of RC beams under design fire exposure”. Magazine of Concrete Research, 69(8), 402-423. https://doi.org/10.1680/jmacr.15.00329
  • 57. Bai, Y.-L., Dai, J.-G.*, & Teng, J. G. (2017). “Buckling of steel reinforcing bars in FRP-confined RC columns: An experimental study”. Construction and Building Materials, 140, 403-415. https://doi.org/10.1016/j.conbuildmat.2017.02.149
  • 56. Bai, Y.-L., Dai, J.-G.*, & Teng, J.-G. (2017). “Monotonic Stress–Strain Behavior of Steel Rebars Embedded in FRP-Confined Concrete Including Buckling”. Journal of Composites for Construction, 21(5), Article 04017043. https://doi.org/10.1061/(asce)cc.1943-5614.0000823
  • 55. Bai, Y.-L., Dai, J.-G.*, & Ozbakkaloglu, T. (2017). “Cyclic stress-strain model incorporating buckling effect for steel reinforcing bars embedded in FRP-confined concrete”. Composite Structures, 182, 54-66. https://doi.org/10.1016/j.compstruct.2017.09.007
  • 54. Zheng, J.-J., Dai, J.-G.*, & Fan, X.-L. (2016). “Fracture Analysis of FRP-Plated Notched Concrete Beams Subjected to Three-Point Bending”. Journal of Engineering Mechanics, 142(3), Article 04015096. https://doi.org/10.1061/(asce)em.1943-7889.0001021
  • 53. Wang, W.-W., & Dai, J.-G.* (2016). “Self-Stressed Steel Fiber Reinforced Concrete as Negative Moment Connection for Strengthening of Multi-Span Simply-Supported Girder Bridges”. Advances in Structural Engineering, 16(6), 1113-1127. https://doi.org/10.1260/1369-4332.16.6.1113
  • 52. Wang, H.-L., Dai, J.-G., Sun, X.-Y.*, & Zhang, X.-L. (2016). “Characteristics of concrete cracks and their influence on chloride penetration”. Construction and Building Materials, 107, 216-225. https://doi.org/10.1016/j.conbuildmat.2016.01.002
  • 51. Wang, H.-L., Dai, J.-G., Sun, X.-Y.*, & Zhang, X.-L. (2016). “Time-Dependent and Stress-Dependent Chloride Diffusivity of Concrete Subjected to Sustained Compressive Loading”. Journal of Materials in Civil Engineering, 28(8), Article 04016059. https://doi.org/10.1061/(asce)mt.1943-5533.0001578
  • 50. Gao, W.-Y., Dai, J.-G.*, & Teng, J. G. (2016). “Fire resistance design of un-protected FRP-strengthened RC beams”. Materials and Structures, 49(12), 5357-5371. https://doi.org/10.1617/s11527-016-0865-x
  • 49. Ding, Y., Dai, J.-G.*, & Shi, C.-J. (2016). “Mechanical properties of alkali-activated concrete: A state-of-the-art review”. Construction and Building Materials, 127, 68-79. https://doi.org/10.1016/j.conbuildmat.2016.09.121
  • 48. Dai, J.-G.*, Wan, B.-L., Yokota, H., & Ueda, T. (2016). “Fracture Criterion for Carbon Fiber Reinforced Polymer Sheet to Concrete Interface Subjected to Coupled Pull-Out and Push-off Actions”. Advances in Structural Engineering, 12(5), 663-682. https://doi.org/10.1260/136943309789867917
  • 47. Yu, K.Q., Dai, J.G.*, Lu, Z.D. and Leung, Christopher, K.Y. (2015), “Mechanical Properties of Engineered Cementitious Composites Subjected to Elevated Temperature”, Journal of Materials in Civil Engineering, 27(10), 04014268: 1-11. https://doi.org/10.1061/(ASCE)MT.1943-5533.0001241
  • 46. Dai, J.G.*, Gao, W.Y. and Teng, J.G. (2015), “Finite Element Modeling of Insulated FRP-strengthened Reinforced Concrete Beams Exposed to Fire”, Journal of Composites for Construction, 19(2), 01014046:1-15. https://doi.org/10.1061/(ASCE)CC.1943-5614.0000509
  • 45. Yu, K.-Q., Dai, J.-G.*, Lu, Z.-D., & Leung, C. K. Y. (2015). “Mechanical Properties of Engineered Cementitious Composites Subjected to Elevated Temperatures”. Journal of Materials in Civil Engineering, 27(10), Article 04014268. https://doi.org/10.1061/(asce)mt.1943-5533.0001241
  • 44. Wang, T., Dai, J.-G.*, & Zheng, J.-J. (2015). “Multi-angle truss model for predicting the shear deformation of RC beams with low span-effective depth ratios”. Engineering Structures, 91, 85-95. https://doi.org/10.1016/j.engstruct.2015.02.035
  • 43. Sun, X.-Y., Dai, J.-G., Wang, H.-L.*, & Xu, C. (2015). “Static and Fatigue Behavior of CFRP-Strengthened RC Bridge Girders Subjected to Vehicle Overloading”. Advanced Steel Construction, 11(3), 359-371. https://doi.org/10.18057/IJASC.2015.11.3.9
  • 42. Sun, X.-Y., Dai, J.-G., Wang, H.-L.*, Dong, W.-W., & Wang, J. (2015). “Decision Support System for Optimizing the Maintenance of RC Girder Bridge Superstructures in Consideration of the Carbon Footprint”. Journal of Bridge Engineering, 20(12), Article 04015022. https://doi.org/10.1061/(asce)be.1943-5592.0000774
  • 41. Shi, J.-W., Zhu, H., Dai, J.-G., Wang, X., & Wu, Z.-S.* (2015). “Effect of Rubber Toughening Modification on the Tensile Behavior of FRP Composites in Concrete-Based Alkaline Environment”. Journal of Materials in Civil Engineering, 27(12), Article 04015054. https://doi.org/10.1061/(asce)mt.1943-5533.0001331
  • 40. Yang, L.Y., Jia, Z.J., Zhang, Y.M.* and Dai, J.G. (2015), “Effects of Nano-TiO2 on Strength, Shrinkage and Microstructure of Alkali Activated Slag Paste”, Cement & Concrete Composites, 57: 1-7. https://doi.org/10.1016/j.cemconcomp.2014.11.009
  • 39. Mohammadi, T., Wan, B.*, Dai, J.-G., & Zhu, C. (2015). “Prediction of Load Capacity Variation in FRP Bonded Concrete Specimens Using Brownian Motion”. Mathematical Problems in Engineering, 2015, 1-9, Article 632912. https://doi.org/10.1155/2015/632912
  • 38. Gao, W. Y., Dai, J.-G.*, & Teng, J. G. (2015). “Simple Method for Predicting Temperatures in Insulated, FRP-Strengthened RC Members Exposed to a Standard Fire”. Journal of Composites for Construction, 19(6), Article 04015013. https://doi.org/10.1061/(asce)cc.1943-5614.0000566
  • 37. Gao, W.-Y., Dai, J.-G.*, & Teng, J. G. (2015). “Analysis of Mode II debonding behavior of fiber-reinforced polymer-to-substrate bonded joints subjected to combined thermal and mechanical loading”. Engineering Fracture Mechanics, 136, 241-264. https://doi.org/10.1016/j.engfracmech.2015.02.002
  • 36. Duan, A., Dai, J.-G.*, & Jin, W.-L. (2015). “Probabilistic Approach for Durability Design of Concrete Structures in Marine Environments”. Journal of Materials in Civil Engineering, 27(2), Article A4014007. https://doi.org/10.1061/(asce)mt.1943-5533.0001023
  • 35. Dai, J.-G.*, Gao, W.-Y., & Teng, J. G. (2015). “Finite Element Modeling of Insulated FRP-Strengthened RC Beams Exposed to Fire”. Journal of Composites for Construction, 19(2), Article Unsp 04014046. https://doi.org/10.1061/(asce)cc.1943-5614.0000509
  • 34. Gao, W.Y., Dai, J.G.* and Teng, J.G. (2014), “Simple Method for Predicting Temperatures in Reinforced Concrete Beams Exposed to a Standard Fire”, Advances in Structural Engineering, 17(4), 573-589. https://doi.org/10.1260/1369-4332.17.4.573
  • 33. Zheng, J.-J., & Dai, J.-G.* (2014). “Analytical solution for the full-range pull-out behavior of FRP ground anchors”. Construction and Building Materials, 58, 129-137. https://doi.org/10.1016/j.conbuildmat.2014.01.097
  • 32. Zheng, J.-J., & Dai, J.-G.* (2014). “Prediction of the nonlinear pull-out response of FRP ground anchors using an analytical transfer matrix method”. Engineering Structures, 81, 377-385. https://doi.org/10.1016/j.engstruct.2014.10.008
  • 31. Wang, W.-W., Dai, J.-G.*, Harries, K. A., & Zhang, L. (2014). “Prediction of prestress losses in RC beams externally strengthened with prestressed CFRP sheets/plates”. Journal of Reinforced Plastics and Composites, 33(8), 699-713. https://doi.org/10.1177/0731684413519715
  • 30. Jirawattanasomkul, T., Dai, J.-G., Zhang, D., Senda, M., & Ueda, T.* (2014). “Experimental Study on Shear Behavior of Reinforced-Concrete Members Fully Wrapped with Large Rupture-Strain FRP Composites”. Journal of Composites for Construction, 18(3), Article A4013009. https://doi.org/10.1061/(asce)cc.1943-5614.0000442
  • 29. Ding, Z.*, Dai, J.-G., & Muner, S. (2014). “Study on an Improved Phosphate Cement Binder for the Development of Fiber-Reinforced Inorganic Polymer Composites”. Polymers, 6(11), 2819-2831. https://doi.org/10.3390/polym6112819
  • 28. Dai, J.-G.*, Munir, S., & Ding, Z. (2014). “Comparative Study of Different Cement-Based Inorganic Pastes towards the Development of FRIP Strengthening Technology”. Journal of Composites for Construction, 18(3), Article A4013011. https://doi.org/10.1061/(asce)cc.1943-5614.0000420
  • 27. Bai, Y.-L., Dai, J.-G.*, & Teng, J. G. (2014). “Cyclic Compressive Behavior of Concrete Confined with Large Rupture Strain FRP Composites”. Journal of Composites for Construction, 18(1), Article 04013025. https://doi.org/10.1061/(asce)cc.1943-5614.0000386
  • 26. Zhu, Y.-G., Kou, S.-C., Poon, * C.-S., Dai, J.-G., & Li, Q.-Y. (2013). “Influence of silane-based water repellent on the durability properties of recycled aggregate concrete”. Cement and Concrete Composites, 35(1), 32-38. https://doi.org/10.1016/j.cemconcomp.2012.08.008
  • 25. Wang, W.-W.*, Dai, J.-G., & Harries, K. A. (2013). “Performance Evaluation of RC Beams Strengthened with an Externally Bonded FRP System under Simulated Vehicle Loads”. Journal of Bridge Engineering, 18(1), 76-82. https://doi.org/10.1061/(asce)be.1943-5592.0000324
  • 24. Wang, W.-W.*, Dai, J.-G., & Harries, K. A. (2013). “Intermediate crack-induced debonding in RC beams externally strengthened with prestressed FRP laminates”. Journal of Reinforced Plastics and Composites, 32(23), 1842-1857. https://doi.org/10.1177/0731684413492574
  • 23. Gao, W. Y., Dai, J.-G.*, Teng, J. G., & Chen, G. M. (2013). “Finite element modeling of reinforced concrete beams exposed to fire”. Engineering Structures, 52, 488-501. https://doi.org/10.1016/j.engstruct.2013.03.017
  • 22. Duan, A., Tian, Y.*, Dai, J.-G., & Jin, W.-L. (2013). “A stochastic damage model for evaluating the internal deterioration of concrete due to freeze–thaw action”. Materials and Structures, 47(6), 1025-1039. https://doi.org/10.1617/s11527-013-0111-8
  • 21. Teng, J.G.*, Zhang, S.S., Dai, J.G. and Chen, J.F. (2013), “Three-Dimensional Meso-scale Finite Element Modeling of Bonded Joints between a Near-Surface Mounted FRP Strip and Concrete”, Computers and Structures, 117: 105-117. https://doi.org/10.1016/j.compstruc.2012.12.002
  • 20. Dai, J.-G.*, Gao, W. Y., & Teng, J. G. (2013). “Bond-Slip Model for FRP Laminates Externally Bonded to Concrete at Elevated Temperature”. Journal of Composites for Construction, 17(2), 217-228. https://doi.org/10.1061/(asce)cc.1943-5614.0000337
  • 19. Wang, W.-W.*, Dai, J.-G., Harries, K. A., & Bao, Q.-H. (2012). “Prestress Losses and Flexural Behavior of Reinforced Concrete Beams Strengthened with Posttensioned CFRP Sheets”. Journal of Composites for Construction, 16(2), 207-216. https://doi.org/10.1061/(asce)cc.1943-5614.0000255
  • 18. Wang, G.-L., Dai, J.-G.*, & Teng, J. G. (2012). “Shear strength model for RC beam–column joints under seismic loading”. Engineering Structures, 40, 350-360. https://doi.org/10.1016/j.engstruct.2012.02.038
  • 17. Gao, W. Y., Teng, J. G.*, & Dai, J.-G. (2012). “Effect of Temperature Variation on the Full-Range Behavior of FRP-to-Concrete Bonded Joints”. Journal of Composites for Construction, 16(6), 671-683. https://doi.org/10.1061/(asce)cc.1943-5614.0000296
  • 16. Dai, J.-G.*, Ueda, T., Sato, Y., & Nagai, K. (2012). “Modeling of Tension Stiffening Behavior in FRP-Strengthened RC Members Based on Rigid Body Spring Networks”. Computer-Aided Civil and Infrastructure Engineering, 27(6), 406-418. https://doi.org/10.1111/j.1467-8667.2011.00741.x
  • 15. Dai, J.-G.*, Lam, L., & Ueda, T. (2012). “Seismic retrofit of square RC columns with polyethylene terephthalate (PET) fibre reinforced polymer composites”. Construction and Building Materials, 27(1), 206-217. https://doi.org/10.1016/j.conbuildmat.2011.07.058
  • 14. Wang, W.-w.*, Dai, J.-g., Li, G., & Huang, C.-k. (2011). “Long-Term Behavior of Prestressed Old-New Concrete Composite Beams”. Journal of Bridge Engineering, 16(2), 275-285. https://doi.org/10.1061/(asce)be.1943-5592.0000152
  • 13. Wang, W.-W.*, Dai, J.-G., Huang, C.-K., & Bao, Q.-H. (2011). “Strengthening multiple span simply-supported girder bridges using post-tensioned negative moment connection technique”. Engineering Structures, 33(2), 663-673. https://doi.org/10.1016/j.engstruct.2010.11.025
  • 12. Wang, B., Zhang, X.-f., Dai, J.-g., & Xu, S.-l.* (2011). “Critical crack tip opening displacement of different strength concrete”. Journal of Central South University, 18(5), 1693-1699. https://doi.org/10.1007/s11771-011-0890-4
  • 11. Dai, J.-G.*, Bai, Y.-L., & Teng, J. G. (2011). “Behavior and Modeling of Concrete Confined with FRP Composites of Large Deformability”. Journal of Composites for Construction, 15(6), 963-973. https://doi.org/10.1061/(asce)cc.1943-5614.0000230
  • 10. Dai, J.-G.*, Yokota, H., Iwanami, M., & Kato, E. (2010). “Experimental Investigation of the Influence of Moisture on the Bond Behavior of FRP to Concrete Interfaces”. Journal of Composites for Construction, 14(6), 834-844. https://doi.org/10.1061/(asce)cc.1943-5614.0000142
  • 09. Dai, J.-G.*, Akira, Y., Wittmann, F. H., Yokota, H., & Zhang, P. (2010). “Water repellent surface impregnation for extension of service life of reinforced concrete structures in marine environments: The role of cracks”. Cement and Concrete Composites, 32(2), 101-109. https://doi.org/10.1016/j.cemconcomp.2009.11.001
  • 08. Dai, J. G.*, Wan, B. L., Yokota, H. and Ueda, T. (2009), “Fracture Criterion for Carbon Fibre Reinforced Polymer Sheet to Concrete Interface Subjected to Coupled Pull-out and Push-off Actions”, Advances in Structural Engineering, 12(5), 663-682. https://doi.org/10.1260/136943309789867917
  • 07. Dai, J.-G.*, Yokota, H., & Ueda, T. (2009). “A Hybrid Bonding System for Improving the Structural Performance of FRP Flexurally Strengthened Concrete Beams”. Advances in Structural Engineering, 12(6), 821-832. https://doi.org/10.1260/136943309790327671
  • 06. Dai, J.-G.*, Harries, K. A., & Yokota, H. (2008). “A critical steel yielding length model for predicting intermediate crack-induced debonding in FRP -strengthened RC members”. Steel and Composite Structures, 8(6), 457-473. https://doi.org/10.12989/scs.2008.8.6.457
  • 05. Dai, J. G.*, Ueda, T. and Sato, Y. (2007), “Bonding Characteristics of Fiber Reinforced Polymer Sheet-Concrete Interfaces under Dowel Load”, Journal of Composites for Construction, 11(2), 138-149. https://doi.org/10.1061/(ASCE)1090-0268(2007)11:2(138)
  • 04. Anggawidjaja, D., Ueda, T.*, Dai, J. G., and Nakai, H. (2006), “Deformation capacity of RC piers wrapped by new fiber-reinforced polymer with large fracture strain”, Cement and Concrete Composites, 28(10), 914-927. https://doi.org/10.1016/j.cemconcomp.2006.07.011
  • 03. Dai, J.G.*, Ueda, T. and Sato, Y. (2006), “Unified Analytical Approaches for Determining Shear Bond Characteristics of FRP-Concrete Interfaces through Pullout Tests”, Journal of Advanced Concrete Technology, 4(1), 133-145. https://doi.org/10.3151/jact.4.133
  • 02. Ueda, T.* and Dai, J. G. (2005), “Interface Bond between FRP Sheets and Concrete Substrates: properties, numerical modeling and roles in member behavior”, Progress in Structural Engineering and Materials, 7(1), 27-43. https://doi.org/10.1002/pse.187
  • 01. Dai, J. G.*, Ueda, T. and Sato, Y. (2005), “Development of Nonlinear Bond Stress-Slip Model of FRP Sheet-concrete Interfaces with a Simple Method”, Journal of Composites for Constructions, 9(1), 52-62. https://doi.org/10.1061/(ASCE)1090-0268(2005)9:1(52)

Non-SCI Journal Papers

(“*” means corresponding author)

  • 45. Haque, M. Amunul, Dai, J.G. and Zhao, X.L.* (2024), Magnesium cements and their  carbonation curing: A state-of-the-art review, Low-carbon Materials and Green Construction, 2(1), 2-28. [DOI]
  • 44. Khan, M., Lao, Kai, M.F.*, Ahmad, M., Lao, J.C. and Dai, J.G. (2023), Fire Performance of Fiber-reinforced Ultra-High-Performance Concrete: A state-of-the-art review, Journal of Asian Concrete Federation, 9(1), 65-102, [DOI]
  • 43. Khan, M., Lao, J.C. and Dai, J.G.* (2022), Comparative study of advanced computational techniques for estimating the compressive strength of UHPC, Journal of Asian Concrete Federation, 8, 51-68. [DOI]
  • 42. Alrefaei, Y. and Dai, J.G.* (2019), Deflection hardening behavior and elastic modulus of one-part hybrid fiber-reinforced geopolymer composites, Journal of Asian Concrete Federation, 5(2), 37-51. [DOI]
  • 41. Zheng, Y., Wang, W.*, Dai, J. and Zhu, Z. (2019), Experimental Study on Mechanical Performance of Reinforced Concrete Beams Shear-Strengthened with FRP-UHTCC Composite 【FRP-UHTCC复合层抗剪增强钢筋混凝土梁受力性能试验研究】, Journal of Building Structures 【建筑结构学报】, 40(8): 118-126.
  • 40. Wang, T., Dai, J.G.*, Yang, L.H. and Wu. P. (2017), Theoretical Model for Electronic Migration of Chloride Ions in Water Repellent Concrete 【硅烷憎水处理混凝土的氯离子电场迁移模型研究】, China Civil Engineering Journal【土木工程学报】, 50(1): 20-27.
  • 39. Guo, S.Y.*, Zhao, T.J., Dai, J.G., Jin, Z.Q., Wang, X.M., Hou, D.S., Wang, P.G., Shang, J. and Wang, L. Q. (2017), Effects of Nano TiO2/Grapheme on the Bond Performance of Epoxy-based An-corrosion Concrete Coating and Chloride Penetration Resistance 【纳米 TiO2/石墨烯对环氧树脂混凝土防腐涂料的界面改性及抗氯离子渗透性能研究】, China Science and Technology Achievements【中国科技成果】, 4: 64-65.
  • 38. Yang, L.H., Wu, P., Wu, Z. and Dai, J.G.* (2016), Application of Permeable Coating in Upper Structure of High-pile Wharf 【渗透型涂层在高桩码头上部结构中的应用】, Port & Waterway Engineering【水运工程】, 4, No. 514, 50-54.
  • 37. Wang, W.W,* Huang, H., Dai, J.G. and Zheng, Y. Z. (2016), Experiments on Flexural Behavior of Steel-GFRP-concrete Composite Beams 【钢-GFRP-混凝土组合梁受弯性能试验】, China Journal of Highway and Transport 【中国公路学报】, 29(9): 45-52.
  • 36. Wang, W.W.*, Dai, J.G., Jing, D.H. (2015), Method for Replacing Large Space Wall with Prestressed Carbon Fiber Cable 【一种采用预应力碳纤维索托换大空间墙体的方法】, High-tech Fibers and Applications 【高科技纤维及应用】, Vo. 6, page 75.
  • 35. Huang, J.Q., Dai, J.G.* (2015), Study on Composite Action of Precast Concrete Sandwich Panels with Plate-type GFRP Shear Connectors 【基于板式 GFRP 剪力连接件的预制混凝土三明治板的组合度研究】, Journal of Building Structures 【建筑结构学报】, 26(z2), 188-195.
  • 34. Huang, H., Wang, W.W.* and Dai, J.G. (2015), Experimental Study on Structural Performance of Two-span Continious GFRP-concrete Composite Hollow Slabs 【两跨连续 GFRP-混凝土空心组合板受力性能试验研究】, Journal of Building Structures【建筑结构学报】, 36(10), 59-65.
  • 33. Huang, H., Wang, W.W.* and Dai, J.G. (2015), Experimental Study on Two-span Continuous GFRP-concrete Composite Slabs【双跨连续 GFRP-混凝土组合板的试验研究】, Journal of Southeast University 【东南大学学报】, 45(1), 139-144.
  • 32. Hu, K.X., Gao, W.Y.*, Dai, J.G., Yu, K.Q., Dong, K. and Fang, L.J. (2015), Experimental Study on the Flexural Performance of Fire-damaged RC Slabs Strengthened with Basalt Textile-Reinforced Cementitious Composites 【玄武岩纤维编织网增强水泥基复合材料加固火灾后混凝土板的抗弯性能试验研究】, Industrial Construction 【工业建筑】, 2015(s), 51-56.
  • 31. Ji, J.*, Li, B., Dai, J.G., Zhang, W.F., Liu, Y.C. and Xing, F. (2014), Hysteretic Behavior Analysis and Design of the Single-span and Double Layer Steel Frame Based on the Outer-jacketing Storey-Adding 【基于套建增层的单跨双层钢框架滞回性能分析与设计】, Journal of Northeast Petroleum University 【东北石油大学学报】, 38(5), 111-120.
  • 30. Wang, W.W.*, Dai, J. G. and Zhang, L. (2012), Experimental Study and Analytical Modeling of Prestress Losses of Reinforced Concrete Beams Strengthened with Post-tensioned CFRP Sheets 【后张预应力碳纤维布加固钢筋混凝土梁预应力损失试验及计算方法研究】, China Civil Engineering Journal 【土木工程学报】, 45(11), 88-94.
  • 29. Dai, J. G.* and Ueda, T. (2012), Carbon Footprint Analysis of Fiber Reinforced Polymer (FRP)-Incorporated Pedestrain Bridges: a case study, Key Engineering Materials, 517(2012), 724-729. (Invited paper)
  • 28. Wang, W.W.*, Zhang, Y. K. and Dai, J.G. (2011), Experimental Study on T-rib GFRP Plate-Concrete Composites Beams 【带 T 型肋的 GFRP 板-混凝土组合梁试验研究】, Industrial Construction 【工业建筑】, 290-294.
  • 27. Zhang, P.*, Zhao T., Dai, J. G., Guo, P. and Wittmann, F. H. (2011), Experimental Study of the Water Repellency and Chloride Resistance of Modified Concrete with Silane 【硅烷改性混凝土防水和抗氯离子性能试验研究】, China Civil Engineering Journal 【土木工程学报】, 44(3), 71-78.
  • 26. Bai, Y.L., Dai, J.G.* and Ou, J.P. (2011), A Comparative Study of the Buffeting Properties of FRP and Steel Box Girder Cable-Stayed Bridges 【钢箱梁斜拉桥抖振性能分析与比较】, Fiber Reinforced Plastics/Composites【玻璃钢/复合材料】, No. 5, 53-57.
  • 25. Zhu, Y.G., Dai, J. G.* and Li, Q.Y. (2011), Chloride Diffusion Property of Recycled Aggregate Concrete Treated with Water Repellent Agents – silane, Advanced Materials Research, Vols. 168-170, 755-761.
  • 24. Zhang P.*, Dai, J.G., Zhao, T. J., Wittmann F. H and Jin, Z.Q. (2010), Water Absorption Property of Cracked Concrete and Effect of Water Repellent Treatment 【带裂缝混凝土的吸水性能及防水处理的影响】, Journal of Building Materials 【建筑材料学报】, 13(1), 70-74 .
  • 23. Tateishi, A., Yokota, H., Iwanami, M, Kato*, E., Kobayashi, A. and Dai, J.G. (2010), Strengthening of port steel structure by CFRP strand sheet under marine environments【水中施工の可能な FRP を用いた港湾鋼構造物の補強実験】, JSCE, Journal of Structural Engineering【構造工学論文集】,Vol. 56(A), 644-655.
  • 22. Long, Y.L. and Dai, J.G.*(2010), Behavior of Circular Concrete Columns Confined by New-typed Large Rupture Strain FRP under Axial Compression 【新型大断裂应变 FRP 约束混凝土圆柱的轴压性能】, Concrete 【混凝土】, No. 7, 44-47.
  • 21. Zhang, P.*, Dai, J.G., Zhao, T.J., Wittmann, F. H. and Hartmann S. (2009), Water Repellent Treatment on Surface of Cracked Concrete under Seawater Exposure Environment 【海水暴露环境下带裂缝混凝土的表面防水处理】, Journal of Building Materials 【建筑材料学报】, 12(2), 214-218.
  • 20. Dai, J.G.* and Ueda, T. (2009), Performance of RC Piers Jacketed with Large Rupture Strain FRP under Cyclic Loading【大应变FRP约束钢筋混凝土桥墩的水平往复加载试验研究】, Industrial Construction 【工业建筑】, 39, No. 433, 274-278.
  • 19. Xue, W.*, Shen, X. H., Dai, J.G. and Jin, W.L. (2009), Influence of the Permeability of External Thermal Insulation on Concrete Wall Carbonation 【外保温系统的透气性对混凝土墙体中性化的影响】, New Building Materials 【新型建筑材料 】, No. 8, 44-48.
  • 18. Akira, Y.*, Dai, J.G., Kato, E. and Yokota, H. (2008), Evaluation on Repair of Coastal Reinforced Concrete Structures using Surface Impregnation Method【港湾 RC 構造物に吸水防止材を適用した場合の補修効果について】, Proceeding of the Japan Concrete Institute【コンクリート工学年次論文集】, 30(2), 631-636. (in Japanese)
  • 17. Dai, J.G.* Akira, Y., Kato, E. and Yokota, H. (2008), Effectiveness of Water Repellents for the Establishment of a Chloride Barrier in Reinforced Concrete with Cracks, Restoration of Buildings and Monuments – An International Journal, 14(6),426-435.
  • 16. Dai, J.G.*, Kato, E., Iwanami, M. and Yokota, H. (2008), Flexural Performance of FRP Sheet Strengthened Concrete Beams through Various Bonding Systems, Proceeding of the Japan Concrete Institute【コンクリート工学年次論文集】, 30(3), 1657-1672.
  • 15. Akira, Y.*, Dai, J.G., Kato, E. and Yokota, H. (2007), Effects of Moisture Conditions of Concrete on the Surface Impregnation Repair【コンクリートの含水状態が表面含浸材の補修性能に与える影響について】, Proceedings of the Japan Concrete Institute【コンクリート工学年次論文集】 29(3), 535-540.
  • 14. Dai, J.G.*, Kato, E., Iwanami, M. and Yokota, H. (2007), Bonding and Cracking Responses of Corroded RC Members Subjected to Uni-axial Tension, Proceedings of the Japan Concrete Institute【コンクリート工学年次論文集】, 29(3), 625-630.
  • 13. Dai, J.G.*, Akira, Y., Yokota, H. and Wittmann, Folker H. (2007), Various Surface Impregnation Treatments for Pre-conditioned Concrete Subjected to Seawater Immersion Tests, Restoration of Buildings and Monuments – An International Journal, 13(4), 229-240.
  • 12. Dai, J.G.*, Ueda, T. and Sato, Y. (2005), Dowel Effects on the Shear Bond Force Transfer in Concrete Beams Strengthened with FRP Sheets, Proceedings of the Japan Concrete Institute【コンクリート工学年次論文集】, 26(2), 883-888. (Best JCI Annual Presentation Award)
  • 11. Jaqin, H., Nakai, H., Ueda, T.* and Sato, Y. and Dai, J.G. (2005), Seismic Retrofitting of RC Piers using Continuous Fiber Sheet with Large Fracturing Strain, JSCE, Journal of Structural Engineering【構造工学論文集】, 51(A), 893-901.
  • 10. Dai, J.G.*, Ueda, T., Muttaqin, H. and Sato, Y. (2003), Mode I Fracture Behavior of FRP-Concrete Interfaces, Proceedings of the Japan Concrete Institute【コンクリート工学年次論文集】, 25(1)1577-1582. (Best JCI Annual Presentation Award)
  • 09. Dai, J.G.*, Sato, Y. and Ueda, T. (2002), Improving the Load Transfer and Effective Bond Length for FRP Composites Bonded to Concrete, Proceedings of the Japan Concrete Institute【コンクリート工学年次論文集】, 24(1), 1423-1428.
  • 08. Dai, J.G. and Huang, C.K.* (2001), Research on the Basic Mechanical Properties of Steel Fiber Reinforced Self-stressing Concrete 【钢纤维自应力混凝土力学性能试验研究】, Journal of Building Materials 建筑材料学报】, 4(1), 69-74.
  • 07. Jiang F., Huang, C.K.* and Dai, J.G. (2001), Finite Element Analysis for Expanding Process of Reinforced Self-stressing Concrete Structures 【自应力混凝土结构限制膨胀过程有限元法分析】, Journal of Dalian University of Technology 【大连理工大学学报】, 41(5), 607-612.
  • 06. Dai, J.G. and Huang, C.K.* (2000), Clarifying the Micro-Mechanical Enhancing Mechanisms of Steel Fiber Reinforced Self-Stressing Concrete [钢纤维自应力砼的增强效应理论探讨], Chinese Concrete and Cement Products 【混凝土与水泥制品】, Z1, 13-16. (in Chinese)
  • 05. Dai, J.G.*, Liu, M. and Huang, C.K. (2000), Early-age Plastic Shrinkage of Polypropylene Fiber Reinforced Concrete 【聚丙烯纤维混凝土和砂浆的塑性收缩试验研究】, Journal of Shenyang Institute of Architecture【沈阳建筑工程学院学报】, 16(3), 195-198.
  • 04. Dai, J.G., Huang, C.K.* and Zhao, G.F. (2000), Non-structural Cracks in Concrete Structures and their Inhabitation by Using Synthetic Fibers 【混凝土中非结构性裂缝分析及合成纤维控制】, Building Structures 【建筑结构】, 30(9), 56-60.
  • 03. Dai, J.G., Song, Y.P.* and Zhao, G. F. (1999), Mechanical Significance of Post-peak Flexural Strength of Concrete Reinforced with Low Elastic Modulus Fibers 【低弹性模量纤维混凝土剩余弯曲强度的力学意义】, Chinese Concrete and Cement Products【混凝土与水泥制品】, Z1, 35-38.
  • 02. Dai, J.G. and Huang, C.K.* (1999), Experimental Study on Net-type Polypropylene Fiber Reinforced Concrete【网状聚丙烯纤维混凝土的试验研究】, Chinese Concrete and Cement Products【混凝土与水泥制品】, No. 4, 35-38.
  • 01. Liu, M. and Dai, J.G.* (1998), Construction Technology of Super High-rise Steel Structure Buildings【超高层建筑的钢结构安装工艺】, Journal of Shenyang Institute of Architecture 【沈阳建筑工程学院学报】, 14(4), 351-354.

Conference Proceedings

  • 07. Dai, J.G. and Dong, Y. (2023),  Proceedings of the International Symposium on Life Cycle Maintenance of Concrete Infrastructure, 25-26 September 2023, Hong Kong, China. ISBN 978-988-70305-08
  • 06. Dai, J.G., Yokota, H., Zhao, T.J. and Zhang, P. (2017), Proceedings of the Eight International Conference on Water Repellent Treatment and Protective Surface Technology for Building Materials (HYDROPHOBE VIII), 7-9 December 2017, Hong Kong, China, ISBN 978-962-367-816-2.
  • 05. Dai, J. G. and Zhu. S. (2012), The Future of Structural Engineering: Research, Practice and Education, Proceedings of The Fourth Asia-Pacific Young Researchers & Graduates Symposium (YRGS2012), Hong Kong, 4-5 December 2012, ISBN: 978-962-367-758-5.
  • 04. Teng, J.G., Dai, J.G., Law, S.S., Xia, Y. and Zhu, S.Y. (2012), Proceedings of the First International Conference on Performance-based and Life-cycle Structural Engineering, 5-6 December, Hong Kong, China, ISBN: 978-988-15439-3-6.
  • 03. Chung, K.F., Lam, Paul, H. F., Yam, Michael C. H. and Dai, J.G. (2013), Proceedings of IStructE Conference on Structural Engineering in Hazard Mitigation, 28-29 October, Tsinghua University, Beijing and 31 October-1 November, Tongji University, Shanghai, ISBN-978-988-16320-4-3.
  • 02. Teng, J.G., Dai, J.G. and Chen, G.M. (2016), Proceedings of the International Workshop on Seawater Sea-Sand Concrete (SSC) Structures Reinforced with FRP Composites, 13 December 2016, ISBN: 978-988-14480-3-3.
  • 01. Teng, J.G. and Dai, J.G. (2016), Proceedings of the Eighth International Conference on Fibre-Reinforced Polymer (FRP) Composites in Civil Engineering (CICE2016), 14-16 December 2016, Hong Kong, China. ISBN: 978-888-14480-26.

Journal Special Issues

  • 09. Dai, J.G., Feng, R., OLSEN, T. O., Wang, C.M. and Zhu, J.H. (2023), Special Issue on “Behavior and Design of Marine Concrete Structures” for “Engineering Structures”, https://www.sciencedirect.com/journal/engineering-structures/about/call-for-papers#behavior-and-design-of-marine-concrete-structures 
  • 08. Dong, B.Q., Sun, G.X., Wang, Y.S. and Dai, J.G. (2022), Special Issue on “Low Carbon Construction Materials and Technologies” for “Journal of Advanced Concrete Technology” (Ongoing)
  • 07. Dai, J.G., Nematollahi, B., Yu, J., Xu, L.Y., and Huang, B.T. (2022), Special Issue on “High-Performance Sustainable Concrete Materials and Structures” for “Frontiers in Materials” (Ongoing)
  • 06. Ilki, A. and Dai, J.G. (2021), Special Issue on “Fibre-reinforced Polymer Composites in Civil Engineering” for “Construction and Building Materials” (Ongoing)
  • 05. Dai, J.G., Yang, E.H. and Huang, B.T. (2021), Special Issue on “High Performance Fiber-Reinforced Cementitious Composites” for “Journal of Composites Science”
  • 04. Dai, J. G. and Teng, J.G. (2015), Special Issue on “Sustainable Materials and Structures” for ASCE, Journal of Materials and Civil Engineering.
  • 03. Wang, C. S. and Dai, J.G. (2015), Special Issue on “Fatigue Performance and Life Cycle Management of Steel and Steel-concrete Composite Bridges” for “Advanced Steel Construction”.
  • 02. Ozbakkaloglu, T., Chen, J.F., Smith, Scott, T. and Dai, J.G. (2015), Special Issue on “Applications of Fiber Reinforced Polymer Composites” for “International Journal of Polymer Science”.
  • 01. Dai, J.G. (2014), Special Issue of “Advances in Structural Engineering” for the 4th Asia Pacific Young Researchers and Graduates Symposium: The Future of Structural Engineering – Research, Practice & Education (YRGS2012).

Book and Book Chapters

  • 吴智深,戴建国,万春风, 混凝土结构维护管理工程学, 科学出版社, 2016.
  • Dai, J. G., Kumar, S. and Huang, J.Q. (2022), Axial Behavior of Reinforced Concrete Sandwich Wall Panels Enabled by Fiber-Reinforced Polymer (FRP) Composites, Sandwich Composites, CRC Press, ISBN, 9781003143031. https://doi.org/10.1201/9781003143031
  • Huang, J.Q., Kumar, S. and Dai, J. G.(2022), Flexural Behavior of Reinforced Concrete Sandwich Wall Panels Enabled by Fiber-reinforced Polymer (FRP) Connectors, Sandwich Composites, CRC Press, ISBN, 9781003143031. https://doi.org/10.1201/9781003143031
  • Dai, J.G.and Bai, Y. L. (2014), Large Rupture Strain (LRS) Fibre-Reinforced Polymer (FRP) Composites for Seismic Retrofit of Reinforced Concrete (RC) Piers, Chapter 5, Advanced Composites for Bridge Construction, Edited by Y. J. Kim., Woodhead Publishing, 117-139. https://doi.org/10.1533/9780857097019.1.117  
  • Dai, J. G.and Ueda, T. (2012), Strength and Deformability of Concrete Members Wrapped with Fibre Reinforced Polymer Composites with a Large Rupture Strain, Chapter 14, Innovative Materials and Techniques in Concrete Construction, ISBN 978-94-007-1996-5, Edited by Fardis, M. N., Springer Publisher, 225-241. https://doi.10.1533/9780857097019.1.117
  • Mohammadi, T., Wan, B.* and Dai, J. G. (2011), Modeling of CFRP-Concrete Interface Subjected to Coupled Pull-out and Push-off Actions, American Concrete Institute Special Publication SP-275: Fiber-Reinforced Polymer Reinforcement for Concrete Structures, ACI SP-275-19, 18 pages. https://doi.14359/51682429
  • Dai, J.G.*, Saito, Y., Ueda, T. and Sato, Y. (2005), Static and Fatigue Bond Characteristics of Interfaces between CFRP Sheets and Frost Damage Experienced Concrete, American Concrete Institute Special Publication SP-230: Fiber-Reinforced Polymer Reinforcement for Concrete Structures, ACI SP-230-86, 16 pages,

Patents

(All in Chinese unless Specified)

  • 18. Dai, J.G. and Yang, N., US Provisional Application, Geopolymer-based Sub-ambient Radiative Cooling Coating, US 63/369, 255.
  • 17. Dai, J.G., Xue, X. and Lei, D.Y., US Provisional Application, Creating an Eco-friendly Building Coating with Smart Sub-Ambient Radiative Cooling, No. 62/927, 756.
  • 16. Dai, J.G., Liu, Y., Xue, X. and Wang, Y.S., C3N4 photocatalytic synthesis of Na-X within 8h at room temperature, US Provisional Application, No. 62/737,181.
  • 15. Dai, J.G. and Liu, Y.L. Concrete composite wall panel structure and building with function gradient【一种具有功能梯度的混凝土复合墙板结构、建筑物】,CN201620945764.2 (Utility model)
  • 14. Dai, J.G., Huang, J.Q. and Liu, Y.L.,Sandwich Concrete Walls and Buildings with Hexagonal Section FRP Shear Connectors【应用六角筒型连接件连接的预制混凝土夹心板、建筑物】, CN201621037976.7. (Utility model)
  • 13. Zhang, Y.M., Li, T. and Dai, J.G., Composite reinforced alkali-activated slag mortar board and preparation method thereof【一种复合增强碱激发矿渣砂浆板及其制备方法】, CN201610180613.7(Utility model)
  • 12. Zhang Y.M., Li, T. and Dai, J.G., Continuous carbon fiber fabric reinforced alkali-activated slag mortar board and preparation method thereof【连续碳纤维织物增强碱激发矿渣砂浆板及制备方法】, CN201610180612.2 (Utility model)
  • 11. Ji, J., Zheng, W.Z., Dai, J.G. et al. Lifting type water floating split green building structure system and construction method【提升式水上漂浮分体绿色建筑结构体系与施工方法】, CN201510637357.5. (Utility model)
  • 10. Ji, J., Dai, J.G., Liu, X.Y. et al. Water float split lift Energy Saving Building and construction methods, CN201510637358(Utility model)
  • 09. Wang, W.W., Li, J.F., Han, G.Y., Zheng, Y.Z. and Dai, J.G., FRP pipe restraint engineered cementitious composites consolidates pier stud structure【一种FRP管约束水泥基复合材料加固墩柱结构】, CN201520156252.3(Utility model)
  • 08. Zhou, J.L., Dai, J.G. and Gao, H., A Composite Insulation Concrete Composite Wall with Stone or Metal Façade【一种石材或金属板饰面的隔热保温混凝土复合体】, CN201520051269.2(Utility model)
  • 07. Wang, W.W., Zheng, Y.Z., Dai, J.G. et al.: One kind of FRP pipe constraint matrix composites reinforced concrete pier structure【一种FRP管约束水泥基复合材料加固墩柱结构】. CN201510120404.9 (Utility model)
  • 06. Ding, Z., Dai, J.G., Cui, P. et al., A fiber-reinforced ceramic composite material and its manufacturing method【一种纤维复合材料增强陶瓷板及其制造方法】, CN201310688269.9 (Utility model)
  • 05. Ding, Z., Dai, J.G., Cui, P. et al.; A fiber-reinforced ceramic composite material and its manufacturing method【纤维复合材料增强陶瓷板及其制造方法】, CN201310686783.9 (Invention model)

  • 04. Wang, W.W., Dai, J.G. and Jin, D.H., Method for underpinning large-space wall by using pre-stressed carbon fiber composite cable【一种采用预应力碳纤维索托换大空间墙体的方法】, CN201210174058.9 (Utility model)

  • 03. Wang, W.W., Dai, J.G., Zhang, L. and Wu, J., Composite steel-fiber reinforced cement-base bridge deck【钢-纤维增强水泥基复合材料组合桥面板】, CN201210005502.4 (Utility model)
  • 02. Wang, W.W., Dai, J.G. and Zhang, L., Combined bridge floor slab with steel-fiber reinforced composite material and high-strength concrete hollow interlayer【钢-纤维增强复合材料高强混凝土空心夹层组合桥面板】, CN201020158742.4 (Utility model)

  • 01. Wang W.W., Dai, J.G. and Zhang L., Steel-fiber reinforced composite material high strength concrete hollow interlayer combination bridge deck【钢-纤维增强复合材料高强混凝土空心夹层组合桥面板】, CN201010146495.0 (Utility model)

Keynote and Invited Lectures

  • 51. Dai, J.G. (2024), 建筑结构节能维护的低碳多功能涂层技术, 第一届川渝港低碳智能建造技术研讨会, 2024年4月13-14日,成都。(特邀报告)
  • 50. Dai, J.G. (2024),  多场耦合下FRP增强混凝土结构的海洋服役环境长期性能预测,2024年全国固体力学学术会议”环境力学”分会场,南京,2024年3月39至4月1日。(特邀报告)
  • 49. Dai, J.G. (2024),  人工地聚物骨料混凝土研究,第二届水泥基材料低碳技术与装备学术研讨会,合肥,2024年1月5-6日。(特邀报告)
  • 48. Dai, J.G. (2023), 绿色高性能地聚物混凝土技术研发,河南省水利工程绿色低碳材料科技创新与产业高峰论坛,2023年12月16日,中国郑州。(主题报告)
  • 47. Dai, J.G. (2023), 利用多功能涂层实现可持续混凝土结构,第三届土木工程新材料及新型结构学术会议,2023年12月1-3日,中国武汉(特邀报告)
  • 46. Dai, J.G. (2023), FRP-UHPFRCC永久性模板增强钢筋混凝土梁的抗剪性能研究,第十九届全国纤维混凝土会议,2023年11月24-26日,中国郑州(特邀报告)
  • 45. Dai, J.G. (2023), 可持续地聚物混凝土材料及结构,第四届可持续发展生物质复合材料与结构国际论坛,2023年11月18-19日,中国南京(特邀报告)
  • 44. Dai, J.G. (2023), Effect of Temperature on Interface Mechanics of FRP-strengthened Steel Structures, 8th International Conference on Advanced Composite Structures and Mechanics, November 19, 2023, Nanjing, China. (Invited Speaker)
  • 43. Dai, J.G. (2023), Sustainable Artificial Geopolymer Aggregates: A One-stone for Two-Birds Solution, The 2nd International Conference on Advanced Civil Engineering and Smart Structures (ACESS2023), Chengdu, China, November 25-26, 2023. (Keynote Speaker)
  • 42. Dai, J.G. (2023), 碳纤维筋及网格增强超高性能混凝土薄板性能研究, 2023土木工程纤维增强复合材料发展论坛,中国常州(邀请报告)
  • 41. Dai, J.G. (2023), 高强高韧性纤维增强水泥基复合材料,第二十二届全国混凝土及预应力混凝土学术交流大会,2023年9月16-18日,中国南京(特邀报告)
  • 40. Dai, J.G. (2023), Multi-Functional sub-Ambient Daytime Radiative Cooling Coating for Energy-Saving Buildings. International Conference on Materials Science, Engineering and Technology, September 07-09 2023, Singapore (Keynote Speaker)
  • 39. Dai, J.G. (2023), Artificial Geopolymer Aggregates Technology based on Urban Solid Waste, The 18th International Conference on Waste Management and Technology, May 20-23, 2023, Sanya, China (Keynote Speaker)
  • 38. Dai, J.G. (2023), Artificial Geopolymer Aggregates – A One-stone-for-two-birds Solution for Sustainable Construction, World Conference on Recycling and Waste Management, Paris, France, May 15-16, 2023 (Keynote Speaker)
  • 37. Dai, J.G. (2022), Structural Performance of BFRP Bar/Grid Reinforced Geopolymer Concrete Slabs, The 2nd International Conference on Basalt Fibers and Composites (ICBFC-2022) and 1st International Forum on the Development of Dazhou Basalt Fiber Industry, Nanjing/Dazhou, China, November 9-11th, 2022. (Keynote Speaker)
  • 36. Dai, J.G. (2022), Recent Advances in FRP-strengthened Concrete Structures, The International Conference on Advanced Civil Engineering and Smart Structures (ACESS2022), Xi’an, China, October 25-26, 2022. (Keynote Speaker)
  • 35. Dai, J.G. (2002), 复材网格增强绿色混凝土预制夹心保温墙板的研究, 第五届全国建筑与工程结构工业化建造技术交流会暨第四届工业化建造技术国际研讨会,October 21-23, 2022.(Invited Speaker)
  • 34. Dai, J.G. (2021), Production of Green Artificial Aggregates through Geopolymer Technology, F-EIR Conference 2021, Environment Concerns and its Remediation, October 18-22, 2021, Chandigarh, India. (Keynote Speaker)
  • 33. Dai, J.G. (2021), Production of Lightweight Artificial Aggregates from Industry Products through Cold Bonding Technology, The 2nd International Conference on Energy Saving and Environmental Protection and Civil Engineering, June 18-20, 2021, Xining, China. (Keynote Speaker)
  • 32. Dai, J.G. (2020), Preventive Maintenance of Concrete Structures through Multiple Functional Coating, International Conference on Civil Engineering, Environment Resources and Energy Materials, Changsha, China, 18-20 September 2020. (Keynote Lecture)
  • 31. Dai, J.G. (2020), Innovative Materials and Structural Systems for Sustainable Concrete Structures, 5th International Conference on Minerals Source, Geotechnology and Civil Engineering, 17-19 April, 2020, Xi’an, China, (Keynote Lecture)
  • 30. Dai, J.G. (2020), Geopolymer Concrete Sandwich Wall Panels Enabled by FRP Connectors for Prefabricated Construction, 3rd International Conference on Innovative Technologies for Clean and Sustainable Development, 19-21 February 2020, Chandigarh, India. (Keynote Lecture)
  • 29. Dai, J.G. (2020), 用于钢筋混凝土建筑结构表面防护的多功能涂层研究, 第二届土木工程新材料及新型结构学术会议, September 25-27, 2020, 中国广州. (Keynote Lecture)
  • 28. Dai, J.G. and Ding Y. (2019), Fracture energy and tension-softening behavior of slag-fly ash blended geopolymer concrete, Performance Evolution and Control of Engineering Structures: Proceedings of 9th Asia-Pacific Young Researchers and Graduates Symposium on Structural Engineering (YRGS 2019). Shanghai, China, 19-20 December 2019. (Keynote Lecture)
  • 27. Dai, J.G. (2019), FRP增强地聚物混凝土的力学性能, “第三届全国土木工程复合材料应用技术交流会” 暨“第四届中国国际复合材料科技大会(CCCM-4)”, Zhuhai, China, 11 November 2019. (Keynote Lecture)
  • 26. Dai, J.G. (2019), Hydrophobe coating for corrosion prevention and service life extension of marine concrete structures, 粤港澳腐蚀防护高峰论坛 (The Greater Bay Area Corrosion Prevention Sumit Forum), 6 December, 2019, Zhuhai, China. (Keynote Lecture)
  • 25. Dai, J.G. (2019), Innovative Construction Materials for Life Cycle Maintenance of Concrete Infrastructures, International Conference on Advances in Civil Engineering and Materials (ACEM2019), 25-27 October 2019, Fuzhou, China. (Keynote Lecture)
  • 24. Dai, J.G., Wang, W.W., Yang X. and Gao W.Y. (2019), Basalt Textiles/Grids for Strengthening Existing Concrete Structures: Research and Applications, The First International Conference on Basalt Fibers and Composites (ICBFC-2019), 16-19 November 2019, Nanjing, China. (Keynote Lecture)
  • 23. Dai J.G., Kumar, S. and Huang, J.Q. (2019), Behavior of FRP Connector-Enabled Sandwich Geopolymer Concrete Wall Panels Subjected to Combined Axial and Flexural Loading, The Third International Symposium for Emerging Researchers in Composites for Infrastructures, 5-6 August, 2019, Wuhan, China. (Keynote Lecture)
  • 22. Dai J.G. (2019), Innovative Materials for Life Cycle Maintenance of Concrete Infrastructures: Research and Applications, 第二届可持续混凝土理论与应用技术学术交流会, 10-12 May 2019, Shanghai, China. (Keynote Lecture)
  • 21. Dai, J.G. (2018), Inorganically Bonded FRP Composites for Strengthening of Existing Concrete Structures, 2018 International Conference on Advances in Civil Engineering and Materials (ACEM2018) and 1st World Symposium on Sustainable Bio-composites Materials and Structures, Nanjing, China, 9-11 November, 2018. (Keynote Lecture)
  • 20. Dai, J.G. (2018), Strengthening of RC Beams Using FRP Grid-Reinforced ECC, The 3rd Domestic Symposium on ECC Science and Technology and Application, HKUST, Hong Kong, 24 October, 2018. (Keynote Lecture)
  • 19. Dai, J.G. (2018), Geopolymer Concrete Sandwich Wall Panels Enabled by FRP Shear Connectors for Green Building Construction, 9TH International Conference on Fibre-reinforced Polymer Composites in Civil Engineering, Paris, July 17-19, 2018. (Keynote Lecture)
  • 18. Wang, Y.S. and Dai, J.G.* (2018), Chemistry of High-calcium Fly Ash in Silico-aluminophosphate Geopolymer, The 8th International Conference of Asian Concrete Federation: Sustainability and Innovation in Concrete Materials and Structures, Fuzhou, China, 4-7 November 2018. (Invited Speaker)
  • 17. Dai, J.G. (2018), Effect of Temperature Variation on the Debonding Strength of FRP-strengthened RC/steel Beams, The First National New Materials and New Structures Conference, 21-23 September 2018, XiAn, China. (Invited Speaker)
  • 16. Dai, J.G. (2018), Use of Emerging Structural Materials and Systems for the Maintenance and Sustainability of Concrete Infrastructure, The First ZHITU Symposium on Advances in Civil Engineering, 12-14 July, Hangzhou, China. (Invited Speaker)
  • 15. Dai, J.G. (2017), Fire Resistance Design of FRP-strengthened RC Members, The Ninth National Symposium on Structure Fire Resistance, 12-14 October, 2017, Lanzhou, China. (Keynote Lecture)
  • 14. Dai, J.G. (2017), The 2nd ACF Symposium 2017 “Innovation for Sustainable Concrete Infrastructures”, 23-25 November, Chiang Mai, Thailand. (Invited Speaker)
  • 13. Dai, J.G., Ding, Y. and Shi, C.J. (2017), Fracture Properties of Alkali-Activated Slag/Fly Ash Concrete, Proceedings of the Third International Conference on Chemically Activated Materials (CAM 2017), Gold Coast, Queensland, 8-13 August, 2017. (Invited Speaker)
  • 12. Dai, J.G. (2016), Determination of Tension Softening and Fracture Toughness of Alkali-activated Concrete, Symposium on The Green and Low-carbon Emission Building Materials, 17th IUMRS International Conference in Asia (IUMRS-ICA-2016), October 20-24, 2016, Qingdao, China (Keynote Lecture)
  • 11. Dai, J.G. (2016), Seismic retrofit of reinforced concrete structures using fiber-reinforced polymer composites, YNU-PolyU-SCU Joint Workshop on “Frontiers of Multi-Hazard Mitigation Strategies in Urban Areas-Highlighting geotechnical aspects”, 7 November 2016, Yokohama, Japan. (Invited Speaker)
  • 10. Bai, Y.L. and Dai, J.G. (2015), Finite Element Modeling of Steel Bar Buckling in FRP-Confined RC Columns, Proceedings of the Second International Conference on Performance-based and Life-Cycle Structural Engineering (PLSE2015), December 9-11 2015, Brisbane, Australia. (Invited Speaker)
  • 09. Dai, J.G. (2015), Bond Mechanics of FRP-to-Concrete Interfaces at Ambient and Elevated Temperatures, 60th Congress of India Society of Theoretical and Applied Mechanics (ISTAM2015), 16-19 December, Jaipur, India, 2015. (Invited Speaker)
  • 08. Dai, J.G. and Bai, Y.L. (2015), Seismic Retrofit of Circular RC Columns with Large Rupture Strain FRP Composites: Experimental Study and FE Modeling, Proceedings of the 7th Regional Symposium on Infrastructure Development, 20(7), 31-34, 9-11 November, Kasetsart University, Thailand. (Invited Speaker)
  • 07. Dai, J.G. and Wang, T. (2015), Probabilistic Model for Service Life Prediction of Water Repellent RC Structures in Marine Environments, Proceeding of the 7th Asia Pacific Young Researchers and Graduates Symposium (YRGS 2015), Malaysia, 20-21, 2015. (Invited Speaker)
  • 06. Dai, J.G., Gao, W.Y. and Teng, J.G. (2013), Behavior and Modeling of FRP-to-concrete Interfaces at Elevated Temperatures, Proceeding of Fourth Asia-Pacific Conference on FRP in Structures (APFIS2013), CD-ROM, Edited by Al-Mahadi et al., 11-13 December, Melbourne, Australia. (Keynote Lecture)
  • 05. Dai, J. G. (2009), Evaluation, Modeling and Optimization of Interface Bond in Fiber Reinforced Polymer (FRP)-strengthened Concrete Structures, Proceedings of the First Asia Pacific Young Researchers and Graduate Symposium (YRGS-2009), Edited by Dookie Kim et al., Organized by Kunsan National University, 26-27 February, 2009, Kunsan, Korea, pp.29-42. (Invited Speaker)
  • 04. Ueda, T. and Dai, J. G. (2005), Interface of Fiber Reinforced Polymer Laminates Externally Bonded to Concrete Substrate: from test methods to bond modeling, Proceedings of International Symposium on Bond Behavior of FRP in Structures (BBFS2005), Edited by Chen and Teng, 7-9 December, Hongkong, China, pp.23-34. (Keynote Lecture)
  • 03. Ueda, T. and Dai, J. G. (2005), FRP Composites for Infrastructures in Japan: Review and Outlook, Proceedings of the International Symposium on Innovation & Sustainability of Structures in Civil Engineering (ISISS’2005), 20-22 November, Nanjing, China, Vol.1, pp.305-320. (Invited Speaker)
  • 02. Ueda, T. and Dai, J. G. (2004), New Shear Bond Model for FRP-concrete Interface: from modeling to application, FRP Composites in Civil Engineering – CICE 2004, Proceedings of the Second International Conference on FRP Composites in Civil Engineering – CICE 2004, 8-10 December, Adelaide, Australia, pp. 69-81. (Keynote Lecture)
  • 01. Zhao, G. F., Wang, Q. X. and Dai, J. G. (2000), Evolution and Application of High-Performance Concrete in China, Proceedings of International Symposium on High Performance Concrete- “Workability, Strength and Durability”, 10-15 December, Hong Kong, China. (Keynote Lecture)