Abstract
This work explored the correlation among the physical and mechanical parameters of concrete in marine environments during corrosion. Concrete materials with varied water–cement ratios (w/c) were soaked in four kinds of simulated seawater, including a compound solution of sodium chloride (NaCl) and magnesium sulfate (MgSO4), a solution of MgSO4, a solution of sodium sulfate (Na2SO4), and clear water. The macroscopic physical and mechanical parameters, such as compressive strength, tensile strength, mass change and ultrasonic wave velocity, were measured. The damage mechanism of corrosion products and microstructures was analyzed using microscopic approaches including scanning electron microscopy (SEM), X-ray diffraction (XRD), etc. Linear correlation was carried out on the abovementioned physical parameters, and the results revealed that, during corrosion, the correlation between compressive and tensile strength and mass (excluding Na2SO4 solution) is positive (mostly highly correlated), while that with wave velocity is poor (mostly moderately correlated).
Highlights
Study of the corrosion of concrete in the marine environment has always been a topic of focus [1–5]
Factors include the corrosion of reinforcements in concrete, the physical and chemical erosion caused by harmful salt ions, and freeze–thaw cycles that can drive corrosion and deterioration [6–12]
As a multi-salt solution, seawater consists of chloride ions, sulfate ions, and magnesium ions, which corrode concrete and reduce its service life
Summary
Study of the corrosion of concrete in the marine environment has always been a topic of focus [1–5]. The three ions relatively abound in the sea areas near Dalian, Tianjin, Qingdao, and Xiamen; the sulfate ions and magnesium ions are rich in Lianyungang; while the sulfate ions and magnesium ions are the least observed in seawater near Beilun. The corrosion pressure of marine materials with high content of harmful ions is relatively high
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