Meng, F.; Luo, S.; Sun, J.; Zhang, C.; Xu, L.; Zhang, L.; Qing, F.; Zeng, J.; Luo, R.; Guo, Y.
Experimental Investigation on the Fracture Behavior of PET-Modified Engineered High-Ductility Concrete: Effects of PET Powder and Precursor Composition. Materials 2025, 18, 2132.
https://doi.org/10.3390/ma18092132
AMA Style
Meng F, Luo S, Sun J, Zhang C, Xu L, Zhang L, Qing F, Zeng J, Luo R, Guo Y.
Experimental Investigation on the Fracture Behavior of PET-Modified Engineered High-Ductility Concrete: Effects of PET Powder and Precursor Composition. Materials. 2025; 18(9):2132.
https://doi.org/10.3390/ma18092132
Chicago/Turabian Style
Meng, Fei, Shen Luo, Jingxian Sun, Cheng Zhang, Leilei Xu, Liqun Zhang, Fumin Qing, Junfeng Zeng, Ruihao Luo, and Yongchang Guo.
2025. "Experimental Investigation on the Fracture Behavior of PET-Modified Engineered High-Ductility Concrete: Effects of PET Powder and Precursor Composition" Materials 18, no. 9: 2132.
https://doi.org/10.3390/ma18092132
APA Style
Meng, F., Luo, S., Sun, J., Zhang, C., Xu, L., Zhang, L., Qing, F., Zeng, J., Luo, R., & Guo, Y.
(2025). Experimental Investigation on the Fracture Behavior of PET-Modified Engineered High-Ductility Concrete: Effects of PET Powder and Precursor Composition. Materials, 18(9), 2132.
https://doi.org/10.3390/ma18092132
