[1] XU J H. Plastic processing industry should develop towards green, intelligent and high-end［N］. China Quality News, 2023-03-07(3) (in Chinese).

[2] HAMEED A M, FATAH AHMED B A. Employment the plastic waste to produce the light weight concrete［J］. Energy Procedia, 2019, 157: 30-38.

[3] TAYEH B A, ALMESHAL I, MAGBOOL H M, et al. Performance of sustainable concrete containing different types of recycled plastic［J］. Journal of Cleaner Production, 2021, 328: 129517.

[4] BASHA S I, ALI M R, AL-DULAIJAN S U, et al. Mechanical and thermal properties of lightweight recycled plastic aggregate concrete［J］. Journal of Building Engineering, 2020, 32: 101710.

[5] ZHANG H B, SHI G L, SHANG H T, et al. Study on thermal conductivity of PVC plastic mortar［J］. Materials Review, 2015, 29(16): 142-146 (in Chinese).

[6] BELMOKADDEM M, MAHI A, SENHADJI Y, et al. Mechanical and physical properties and morphology of concrete containing plastic waste as aggregate［J］. Construction and Building Materials, 2020, 257: 119559.

[7] SAXENA R, SIDDIQUE S, GUPTA T, et al. Impact resistance and energy absorption capacity of concrete containing plastic waste［J］. Construction and Building Materials, 2018, 176: 415-421.

[8] HE C F, LI X B, LIANG J F, et al. Study on axial compression properties of polypropylene recycled plastic concrete［J］. Concrete, 2021(10): 67-69+75 (in Chinese).

[9] ALI K, QURESHI M I, SALEEM S, et al. Effect of waste electronic plastic and silica fume on mechanical properties and thermal performance of concrete［J］. Construction and Building Materials, 2021, 285: 122952.

[10] WANG L P, JIANG S C, WANG L S. The influence of waste plastic blending amount and modifier on the properties of plastic concrete［J］. Plastics Science and Technology, 2021, 49(8): 31-34 (in Chinese).

[11] SHI H Z. Effects of different modification methods on mechanical properties and thermal insulation properties of plastic concrete［J］. Plastics Science and Technology, 2022, 50(3): 70-74 (in Chinese).

[12] PAN Z H, CHEN J M, ZHAN Q W, et al. Mechanical properties of PVC concrete and mortar modified with silane coupling agents［J］. Construction and Building Materials, 2022, 348: 128574.

[13] Methods of testing cement. Part 5: pozzolanicity test for pozzolanic cement［M］. ES-AENOR, 2011.

[14] SUN S, MENG S, ZHOU Z F. Adsorption of polyethylene and polyvinyl chloride to phthalate esters［J］. Environmental Science & Technology, 2022, 45(8): 9-16 (in Chinese).

[15] WU J L, CHEN T J, LUO X T, et al. TG/FTIR analysis on co-pyrolysis behavior of PE, PVC and PS［J］. Waste Management, 2014, 34(3): 676-682.

[16] PR E, CARDY H, CAIRON O, et al. Quantitative assessment of organic compounds adsorbed on silica gel by FTIR and UV-VIS spectroscopies: the contribution of diffuse reflectance spectroscopy［J］. Vibrational Spectroscopy, 2001, 25(2): 163-175.

[17] DVOKOV, ECH, STUPAVSK, et al. Fast surface hydrophilization via atmospheric pressure plasma polymerization for biological and technical applications［J］. Polymers, 2019, 11(10): 1613.

[18] LIU J P, LI H, TIAN Q, et al. Determination of dynamic contact angles of cement and mineral admixtures based on thin-layer wicking technique［J］. Journal of Southeast University (Natural Science Edition), 2013, 43(5): 1074-1079 (in Chinese).

[19] TOLE I, DELOGU F, QOKU E, et al. Enhancement of the pozzolanic activity of natural clays by mechanochemical activation［J］. Construction and Building Materials, 2022, 352: 128739.

[20] DONATELLO S, TYRER M, CHEESEMAN C R. Comparison of test methods to assess pozzolanic activity［J］. Cement and Concrete Composites, 2010, 32(2): 121-127.

[21] GU Z C, WANG Y X, CHEN P Y, et al. Effect of fly ash modified plastic particles using heat welding method on performance and interface modification mechanism of mortars［J］. Construction and Building Materials, 2023, 407: 133481.

[22] JU Y, LIU H B, TIAN K P, et al. An investigation on micro pore structures and the vapor pressure mechanism of explosive spalling of RPC exposed to high temperature［J］. Science China (Technological Sciences), 2013, 56(2): 458-470.

[23] SHE A M, MA K, WANG Z P, et al. Characterization of pore structure in hardened cement paste by low field NMR cryoporometry［J］. Journal of Building Materials, 2021, 24(5): 916-920 (in Chinese).

[24] GAO L X, SUN G W, ZHANG Y S, et al. Relationship between porosity and chloride diffusivity in cement-based composite materials［J］. Journal of Chongqing University, 2012, 35(11): 53-61 (in Chinese).