References
- Bing, L. (2007). Study of effect of stresses on the fracture behavior and corrosion of prestressing steel wires [D]. Shanghai Jiao Tong University.
- Bolong, Z., & Zhenxiang, D. (1985). Nonlinear analysis of reinforced concrete [M]. Tongji University Press.
- Fang, Y., Jinqing, J., & Yupu, S. (2012). Experimental research on fatigue behavior of prestressed concrete beams with corroded steel strands [J]. Building Structure, 42(1), 1–14.
- Fumin, L., Tianci, D., Jianghao, W., & L. Xiao Ya. (2015). Review of research on durability of prestressed concrete structures [J]. Journal of Architecture and Civil Engineering, 32(2), 1–20.
- Gu, P., Wang, L., Deng, C., & Tang, L. (2017). Review of typical failure characteristics of aqueduct structures in China [J]. Advances in Science and Technology of Water Resources, 37(5), 1–8.
- Honghu, Z., & Bin, S. (2015). Current progress and trends of opto-electronic sensor-based monitoring in geoengineering: A summary of 5th OSMG-2014 [J]. Journal of Engineering Geology, 23(2), 352–360.
- Hou, G.-Y., Li, Z., Hu, T., Zhou, T., Xiao, H., Wang, K., Hu, J., & Zhu, J. (2020). Study of tunnel settlement monitoring based on distributed optic fiber strain sensing technology [J]. Rock and Soil Mechanics, 41(9), 3148–3158.
- Kishida, K., Li, C. H., & Nishiguchi, K. (2005). Pulse pre-pump method for cm-order spatial resolution of BOTDA. In Proceedings SPIE 5855, 17th International Conference on Optical Fibre Sensors, 559.
- Li, F., & Yuan, Y. (2010). Experimental study on bending property of prestressed concrete beams with corroded steel strands [J]. Journal of Building Structures, 31(2), 78–84.
- Moffat, R., Sotomayor, J., & Beltrán, J. F. (2015). Estimating tunnel wall displacements using a simple sensor based on a Brillouin optical time domain reflectometer apparatus[J]. International Journal of Rock Mechanics & Mining Ences, 75, 233–243. https://doi.org/10.1016/j.ijrmms.2014.10.013
- Shiqin, H., Zeyang, C., Weijie, L., & Pengfei, L. (2019). Influence of long-term load and chlorine corrosion on reinforced concrete beam deflection [J]. Journal of Tsinghua University (Science and Technology), 59(11), 902–909.
- Xu, G., Zhang, D., Liu, D. F., & Wei, J. (2012). Research on mechanical properties of corroded steel bar in concrete under chloride environment [J]. Journal of Hydraulic Engineering, 43(4), 452–459.
- Yang, R., Zhang, J., Wang, L., & Zhang, X. (2008). Experimental research for flexural behavior on concrete beams with local corrosion fracture of strands [J]. Journal of Central South University: Science and Technology, 49(10), 2593–2601.
- Yi, W., Kunnath, S. K., Sun, X., & Shi, C. (2010). Fatigue behavior of reinforced concrete beams with corroded steel reinforcement [J]. ACI Structural Journal, 107(5), 526–533.
- Yu, F., Jia, J., Yao, D., & Wu, F. (2014). Experimental analysis of fatigue properties of corroded prestressing strands [J]. Journal of Harbin Engineering University, 35(12), 1487–1491+1502.
- Zhao, L., Tang, F., Verstrynge, E., Ren, L., & Li, H.-N. (2022). Experimental and numerical investigation into corrosion-induced mortar/concrete cracking with distributed optical fiber sensors [J]. Journal of Civil Structural Health Monitoring, 12(4), 943–960. https://doi.org/10.1007/s13349-022-00589-x
- Zhou, Z., He, J., Wu, Y., & Ou, J. (2010). Measurement technique based on the FBG-BOTDA(R) for infrastructures [J]. China Civil Engineering Journal, 3(43), 111–118.
- Zhu, E.-Y., Liu, C., He, L., Zhang, H. W., & Xie, N. (2006). Stress performance analysis on corroded pre-stressed concrete beam [J]. China Safety Science Journal, 16(2), 136–140+146.