Junli Qiu scite author profile

This paper presents a nondestructive test method to evaluate the residual bending strength of corroded reinforced concrete beam by analyzing the self-magnetic flux leakage (SMFL) signals. The automatic scanning device was equipped with a micromagnetic sensor and sensor-based experimental details were introduced. Next, the theoretical formula of the normal component HS(z) of the SMFL signal that originated from the corroded region was derived based on the magnetic dipole model and the experimental results were discussed. The results indicate that the experimental data of HS(z) are consistent with the theoretical calculations, both location and extent of the steel bars corrosion can be qualitatively determined by using HS(z). The gradient K of HS(z) is approximately linearly related to the loss rate, S, of the bending strength, which can be used to evaluate the residual bending strength of the corroded reinforced concrete beam. This work lays the foundation for evaluating the residual bending strength of corroded reinforced concrete beams using the SMFL signal; the micromagnetic sensor is further applied to the civil engineering.

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Experimental analysis of the correlation between bending strength and SMFL of corroded RC beams

Qiu

Zhang

Zhou

et al. 2019

Construction and Building Materials

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An SMFL-based non-destructive quantification method for the localized corrosion cross-sectional area of rebar

Qiu

Zhou

et al. 2021

Corrosion Science

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Statistical quantitative evaluation of bending strength of corroded RC beams via SMFL technique

Qiu

Zhou

Zhao

et al. 2020

Engineering Structures

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Junli Qiu

Experimental Study on Residual Bending Strength of Corroded Reinforced Concrete Beam Based on Micromagnetic Sensor

Experimental analysis of the correlation between bending strength and SMFL of corroded RC beams

An SMFL-based non-destructive quantification method for the localized corrosion cross-sectional area of rebar

Statistical quantitative evaluation of bending strength of corroded RC beams via SMFL technique

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