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[3] Wenshen Liu, Hongru Zhang, Zongyan Chen, Ji Tao, Xiao Zhang, Baojun Zhao. (2023). Performance of pervious concrete influenced by typical properties of recycled concrete aggregate and suggestions for practical use. Road Materials and Pavement Design, 1-22. https://doi.org/10.1080/14680629.2023.2238082 (SCI、EI收录,中科院三区)
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[7] Zhang, H., Liu, W., Zhang, J., et al. (2023). A new look at the resistance of recycled aggregate concrete (RAC) to the external sulfate attacks: the influence of the multiple mesoscopic material phases. Journal of Building Engineering, 64, 105653(1)-(12). (SCI、EI收录,中科院二区)
[8] Zhang, H. , Xu, X. , Liu, W. , et al. (2022). Influence of the moisture states of aggregate recycled from waste concrete on the performance of the prepared recycled aggregate concrete (RAC) –A review. Construction and Building Materials, 2022, 326, 126891(1)-(14). (SCI、EI收录,中科院二区)
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[12] Zhang, H., Ji, T., Liu, H., & Su, S. (2021). Improving the sulfate resistance of recycled aggregate concrete (RAC) by using surface-treated aggregate with sulfoaluminate cement (SAC). Construction and Building Materials, 297, 123535. (SCI、EI收录,中科院二区)
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[16] Zhang, H., Ji, T., & Liu, H. (2019). Performance evolution of the interfacial transition zone (ITZ) in recycled aggregate concrete under external sulfate attacks and dry-wet cycling. Construction and Building Materials, 229, 116938. (SCI、EI收录,中科院二区)
[17] Zhang, H., Ji, T., He, B., & He, L. (2019). Performance of ultra-high performance concrete (UHPC) with cement partially replaced by ground granite powder (GGP) under different curing conditions. Construction and Building Materials, 213, 469-482. (SCI、EI收录,中科院二区)
[18] Zhang, H., Ji, T., & Lin, X. (2019). Pullout behavior of steel fibers with different shapes from ultra-high performance concrete (UHPC) prepared with granite powder under different curing conditions. Construction and Building Materials, 211, 688-702. (SCI、EI收录,中科院二区)
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[20] Zhang, H., Ji, T., Zeng, X., Yang, Z., Lin, X., & Liang, Y. (2018). Mechanical behavior of ultra-high performance concrete (UHPC) using recycled fine aggregate cured under different conditions and the mechanism based on integrated microstructural parameters. Construction and Building Materials, 128, 96-107. (SCI、EI收录,中科院二区)
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[24] Zhang, H., Zhao, Y., Meng, T., & Shah, S. P. (2015). The modification effects of a nano-silica slurry on microstructure, strength, and strain development of recycled aggregate concrete applied in an enlarged structural test. Construction and Building Materials, 95, 721-735. (SCI、EI收录,中科院二区)
[25] Zhang, H., Zhao, Y., Meng, T., & Shah, S. P. (2015). Surface Treatment on Recycled Coarse Aggregates with Nanomaterials. Journal of Materials in Civil Engineering, 04015094. (SCI、EI收录,中科院三区)
[26] Zhao, Y., Zhang, H., Chen, C., & Jin, W. (2015). Early-age index choosing for long-term quality evaluation of concrete structures. Advances in Structural Engineering, 18(12), 2047-2058. (SCI、EI收录,中科院四区)
[27] Zhang, H., & Zhao, Y. (2014). Performance of Recycled Aggregate Concrete in a Real Project. Advances in Structural Engineering, 17(6), 895-906. (SCI、EI收录,中科院四区)
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[29] 朱勇年,张鸿儒,孟涛,&赵羽习. (2014). 纳米SiO2改性再生骨料混凝土工程应用研究及实体性能监测. 混凝土,24(7),138-144. (中文核心)
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