期刊论文 [1] Li, T., Tang, X., Xia, J., Gong, G., Xu, Y., & Li, M. (2024). Investigation of mechanical strength, permeability, durability and environmental effects of pervious concrete from travertine waste material. Construction and Building Materials, 426, 136175. [2] Li, T., Tang, X., Xia, J., Gong, G., Xu, Y., & Li, M. (2024). Investigation of sustainable pervious concrete pavement performance using waste travertine aggregate and powder. Journal of Building Engineering, 92, 109775. [3] Li, T., Xia, J., & Tang, X. (2024). Effect of eco-friendly pervious concrete pavement with travertine waste and sand on the heavy metal removal and runoff reduction performance. Journal of Environmental Management, 366, 121757. [4] Li, T., Xia, J. & Tang, X. (2024). Exploring the efficacy of travertine pervious concrete pavement: A novel approach for urban runoff heavy metal mitigation. Case Studies in Construction Materials, 21, e03556. [5] Li, T., Tang, X. & Xia, J. (2025). Multi-functional properties of low-carbon travertine aggregate pervious concrete modified by waste limestone powder. Developments in the Built Environment, 21, 100590.
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