Fanxiu Chen scite author profile

Concrete cracking caused by corrosion of reinforcement could significantly shorten the durability of reinforced concrete structure. It remains critical to investigate the process and mechanism of the corrosion occurring to concrete reinforcement and establish the theoretical prediction model of concrete expansion force for the whole process of corrosion cracking of reinforcement. Under the premise of uniform corrosion of reinforcing steel bars, the elastic mechanics analysis method is adopted to analyze the entire process starting from the corrosion of steel bars to the cracking of concrete due to corrosion. A relationship model between the expansion force of corrosion of steel bars and the surface strain of concrete is established. On the cuboid reinforced concrete specimens with square cross-sections, accelerated corrosion tests are carried out to calibrate and verify the established model. The model can be able to estimate the real-time expansion force of reinforced concrete at any time of the whole process from the initiation of steel corrosion to the end of concrete cracking by measuring the surface strain of concrete. It could be useful for quantitative real-time monitoring of steel corrosion in concrete structures.

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Non-uniform model of relationship between surface strain and rust expansion force of reinforced concrete

Chen

Zhong

Gao

et al. 2021

Sci Rep

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When operating within the environments rich with sodium chloride, steel bars of reinforced concrete structures are often subject to corrosion caused by surrounding erosive materials, and the associated rust expansion force due to corrosion takes a critical role in determining the durability of relevant reinforced concrete structures. By investigating the corrosion course of steel reinforcement with theory of elasticity, a numerical rust expansion model is established for the moment of concrete surface rupture based on non-uniform sin function. Cuboid reinforced concrete specimen with squared cross sections is tested to analyze the rust expansion when concrete cracks due to corrosive forces. The utility of the established expansion model is validated by numerical simulation with Abaqus through the comparison between the associated outcomes. The impacts of steel bar diameter and concrete cover thickness on the magnitude of rust expansion force are discussed.

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Non-uniform Model of Relationship Between Surface Strain and Rust Expansion Force of Reinforced Concrete

Chen

Zhong

Gao

et al. 2021

Preprint

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Research on internal monitoring of reinforced concrete under accelerated corrosion, using XCT and DIC technology

Wang

Jin

Liu

et al. 2021

Construction and Building Materials

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Mechanical analysis and force chain determination in granular materials using digital image correlation

Chen

Zhang

2016

Appl. Opt.

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The mechanical behaviors of granular materials are governed by the grain properties and microstructure of the materials. We conducted experiments to study the force transmission in granular materials using plane strain tests. The large amount of nearly continuous displacement data provided by the advanced noncontact experimental technique of digital image correlation (DIC) has provided a means to quantify local displacements and strains at the particle level. The average strain of each particle could be calculated based on the DIC method, and the average stress could be obtained using Hooke's law. The relationship between the stress and particle force could be obtained based on basic Newtonian mechanics and the balance of linear momentum at the particle level. This methodology is introduced and validated. In the testing procedure, the system is tested in real 2D particle cases, and the contact forces and force chain are obtained and analyzed. The system has great potential for analyzing a real granular system and measuring the contact forces and force chain.

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Real-time strain monitoring of reinforced concrete under the attacks of sulphate and chloride ions based on XCT and DIC methods

Wang

Liu

Jin

et al. 2022

Cement and Concrete Composites

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Strain Field of Reinforced Concrete under Accelerated Corrosion by Digital Image Correlation Technique

Jiang

Jin

Zhao

et al. 2017

ACT

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The strain evolution and crack pattern of reinforced concrete attacked by accelerated corrosion have been studied using strain gauges and the digital image correlation (DIC) technique. Results show that there was good consistency between DIC and the classical strain gauges in the strain evolution of corroding reinforced concrete. Moreover, the strain field and crack behaviour of reinforced concrete could be tracked by DIC image pattern intuitively and its stress could also be calculated by DIC quantitatively. However, the micro-deformation of reinforced concrete could not be obtained by DIC because of its test accuracy. When reinforced concrete was attacked by accelerated corrosion, the expansion stress was applied to the upper zone of reinforced bar, and the compressive stress was applied to its bottom zone. And the failure model of reinforced concrete was mainly in a brittle manner.

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Fanxiu Chen

Full-field 3D measurement using multi-camera digital image correlation system

Relationship model between surface strain of concrete and expansion force of reinforcement rust

Non-uniform model of relationship between surface strain and rust expansion force of reinforced concrete

Non-uniform Model of Relationship Between Surface Strain and Rust Expansion Force of Reinforced Concrete

Research on internal monitoring of reinforced concrete under accelerated corrosion, using XCT and DIC technology

Mechanical analysis and force chain determination in granular materials using digital image correlation

Real-time strain monitoring of reinforced concrete under the attacks of sulphate and chloride ions based on XCT and DIC methods

Strain Field of Reinforced Concrete under Accelerated Corrosion by Digital Image Correlation Technique

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