期刊论文:
(1) Fang, X.L., Xuan, D.X., Zhan, B.J., Li, W.F., & Poon, C. S. (2020). A Novel Upcycling Technique of Recycled Cement Paste Powder by a Two-step Carbonation Process. Journal of Cleaner Production, 125192.
(2) Fang, X.L., Zhan, B.J., & Poon, C. S. (2020). Enhancing the Accelerated Carbonation of Recycled Concrete Aggregates by Using Reclaimed Wastewater from Concrete Batching Plants. Construction and Building Materials, 239, 117810.
(3) Fang, X.L., Zhan, B.J., & Poon, C. S. (2021). Enhancement of Recycled Aggregates and Concrete by Combined Treatment of Spraying Ca2+ Rich Wastewater and Flow-through Carbonation. Construction and Building Materials, 277, 122202.
(4) Fang, X.L., Xuan, D.X., Zhan, B.J., Li, W.F., & Poon, C. S. (2021). Characterization and Optimization of a Two-step Carbonation Process for Valorization of Recycled Cement Paste Fine Powder. Construction and Building Materials, 278, 122343.
(5) Fang, X.L., Xuan, D.X., Shen, P.L., & Poon, C.S (2021). Fast Enhancement of Recycled Fine Aggregates Properties by Wet Carbonation. Journal of Cleaner Production, 313, 127867
(6) Fang, X.L., Wang, L., Poon, C. S., Baek, K., Tsang, D. C., & Kwok, S. K. (2019). Transforming Waterworks Sludge into Controlled Low-Strength Material: Bench-Scale Optimization and Field Test Validation. Journal of environmental management, 232, 254-263.
(7) Fang, X.L., Xuan, D.X., & Poon, C. S. (2017). Empirical Modelling of CO2 Uptake by Recycled Concrete Aggregates under Accelerated Carbonation Conditions. Materials and Structures, 50(4), 200.
(8) Wang, L., Zou, F., Fang, X.L., Tsang, D. C., Poon, C. S., Leng, Z., & Baek, K. (2018). A novel type of controlled low strength material derived from alum sludge and green materials. Construction and Building Materials, 165, 792-800.
(9) Yu, T., Fang, X.L., & Teng, J.G. (2014). FRP-confined self-compacting concrete under axial compression. Journal of materials in civil engineering, 26(11), 04014082.
