[2] FU C Q, JIN N G, YE H L, et al. Corrosion characteristics of a 4-year naturally corroded reinforced concrete beam with load-induced transverse cracks［J］. Corrosion Science, 2017, 117: 11-23.

[4] SHENG J, YIN S P, WANG F, et al. Experimental study on the fatigue behaviour of RC beams strengthened with TRC after sustained load corrosion［J］. Construction and Building Materials, 2017, 131: 713-720.

[5] YIN S P, NA M W, YU Y L, et al. Research on the flexural performance of RC beams strengthened with TRC under the coupling action of load and marine environment［J］. Construction and Building Materials, 2017, 132: 251-261.

[7] WATTANACHAI P, OTSUKI N, SAITO T, et al. A study on chloride ion diffusivity of porous aggregate concretes and improvement method［J］. Doboku Gakkai Ronbunshuu E, 2009, 65(1): 30-44.

[8] KAKOOEI S, AKIL H M, DOLATI A, et al. The corrosion investigation of rebar embedded in the fibers reinforced concrete［J］. Construction and Building Materials, 2012, 35: 564-570.

[12] DA B, YU H F, MA H Y, et al. Reinforcement corrosion research based on electrochemical impedance spectroscopy for coral aggregate seawater concrete in a seawater immersion environment［J］. Journal of Testing and Evaluation, 2020, 48(2): 20180197.

[14] ABABNEH A, SHEBAN M. Impact of mechanical loading on the corrosion of steel reinforcement in concrete structures［J］. Materials and Structures, 2011, 44(6): 1123-1137.

[15] JOHN D G, SEARSON P C, DAWSON J L. Use of AC impedance technique in studies on steel in concrete in immersed conditions［J］. British Corrosion Journal, 1981, 16(2): 102-106.