Your search keyword '"rusted rebar"' showing total 3 results

1. Surface Modification of Rusted Rebar and Enhanced Passivation/Anticorrosion Performance in Simulated Concrete Pore Solutions with Different Alkalinity

Author

Dan Song, Falin Yang, Mingzhi Guo, Sujing Zhao, Jun Hao, Zhaojun Chen, Jiapeng Sun, Yifeng Xu, and Jinyang Jiang

Subjects

rusted rebar, surface modification, surface state, passivation, corrosion behavior in cl− environment, Mining engineering. Metallurgy, TN1-997

Abstract

Naturally exposed rusted rebar has been widely used for the production of reinforced concrete. However, rusted rebar is prone to corrosion under chloride ion (Cl−) contamination and/or at a low alkalinity of concrete. This study employed two surface modification methods, sand blasting and wire brushing, to augment the corrosion resistance of naturally exposed rusted rebar. Electrochemical tests revealed that the surface-modified rebar displayed a significant improvement of passivation in the concrete alkaline environment and anticorrosion performance in both the Cl− free and Cl−-containing simulated concrete pore solutions of different alkalinity. The enhanced performance was mainly due to the elimination of the rust layer and the direct exposure of the fresh metallic surface to the alkaline medium. Moreover, the effect of surface nanograins on the intensified passive film led to the best passivation performance of the wire-brushed rebar. The overall findings demonstrate that the two developed methods were conducive to the passivation and anticorrosion performance of the rusted rebar and thereby hold great promise for improving the service life of the reinforced concrete structures.

Published

2019

2. Surface Modification of Rusted Rebar and Enhanced Passivation/Anticorrosion Performance in Simulated Concrete Pore Solutions with Different Alkalinity

Author

Sujing Zhao, Falin Yang, Jun Hao, Jinyang Jiang, Zhaojun Chen, Jiapeng Sun, Dan Song, Mingzhi Guo, and Yifeng Xu

Subjects

lcsh:TN1-997, Materials science, Passivation, 0211 other engineering and technologies, Alkalinity, Rebar, 02 engineering and technology, Chloride, Rust, corrosion behavior in Cl− environment, Corrosion, law.invention, law, 021105 building & construction, surface state, medicine, General Materials Science, passivation, Composite material, lcsh:Mining engineering. Metallurgy, rusted rebar, Metals and Alloys, food and beverages, 021001 nanoscience & nanotechnology, Service life, Surface modification, 0210 nano-technology, surface modification, medicine.drug

Abstract

Naturally exposed rusted rebar has been widely used for the production of reinforced concrete. However, rusted rebar is prone to corrosion under chloride ion (Cl&minus, ) contamination and/or at a low alkalinity of concrete. This study employed two surface modification methods, sand blasting and wire brushing, to augment the corrosion resistance of naturally exposed rusted rebar. Electrochemical tests revealed that the surface-modified rebar displayed a significant improvement of passivation in the concrete alkaline environment and anticorrosion performance in both the Cl&minus, free and Cl&minus, containing simulated concrete pore solutions of different alkalinity. The enhanced performance was mainly due to the elimination of the rust layer and the direct exposure of the fresh metallic surface to the alkaline medium. Moreover, the effect of surface nanograins on the intensified passive film led to the best passivation performance of the wire-brushed rebar. The overall findings demonstrate that the two developed methods were conducive to the passivation and anticorrosion performance of the rusted rebar and thereby hold great promise for improving the service life of the reinforced concrete structures.

Published

2019

3. Surface Modification of Rusted Rebar and Enhanced Passivation/Anticorrosion Performance in Simulated Concrete Pore Solutions with Different Alkalinity.

Author

Song, Dan, Yang, Falin, Guo, Mingzhi, Zhao, Sujing, Hao, Jun, Chen, Zhaojun, Sun, Jiapeng, Xu, Yifeng, and Jiang, Jinyang

Subjects

PASSIVATION, CONCRETE durability, SAND blasting, ALKALINITY, REINFORCED concrete, METALLIC surfaces, REINFORCING bars

Abstract

Naturally exposed rusted rebar has been widely used for the production of reinforced concrete. However, rusted rebar is prone to corrosion under chloride ion (Cl−) contamination and/or at a low alkalinity of concrete. This study employed two surface modification methods, sand blasting and wire brushing, to augment the corrosion resistance of naturally exposed rusted rebar. Electrochemical tests revealed that the surface-modified rebar displayed a significant improvement of passivation in the concrete alkaline environment and anticorrosion performance in both the Cl− free and Cl−-containing simulated concrete pore solutions of different alkalinity. The enhanced performance was mainly due to the elimination of the rust layer and the direct exposure of the fresh metallic surface to the alkaline medium. Moreover, the effect of surface nanograins on the intensified passive film led to the best passivation performance of the wire-brushed rebar. The overall findings demonstrate that the two developed methods were conducive to the passivation and anticorrosion performance of the rusted rebar and thereby hold great promise for improving the service life of the reinforced concrete structures. [ABSTRACT FROM AUTHOR]

Published

2019