Simulated GPR Investigation of Deterioration in Reinforced Concrete Bridge Decks

Belli, Kimberly; Birken, Ralf; Vilbig, Reid; Wadia-Fascetti, Sara

doi:10.4133/sageep2013-099.1

Cited by 4 publications

(2 citation statements)

References 19 publications

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“…Corrosion of the internal reinforcing steel is a major cause of concrete bridge deck deterioration. Corrosion byproducts cause the steel to expand and crack the surrounding concrete, allowing for increased deterioration rates (Belli et al, 2013). To prevent and delay significant damage, bridge deck monitoring is essential.…”

Section: Introductionmentioning

confidence: 99%

Data acquisition and processing parameters for concrete bridge deck condition assessment using ground-coupled ground penetrating radar: Some considerations

Varnavina

Khamzin

Torgashov

et al. 2015

Journal of Applied Geophysics

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Section: Introductionmentioning

confidence: 99%

Data acquisition and processing parameters for concrete bridge deck condition assessment using ground-coupled ground penetrating radar: Some considerations

Varnavina

Khamzin

Torgashov

et al. 2015

Journal of Applied Geophysics

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“…The use of ground-penetrating radar data for condition assessment of concrete bridges dates back to the early 1980s [ 63 ]. The amplitude of the ground-penetrating radar signal during an inspection is affected by the presence of structural elements, variations in cover depth, moisture, chlorides [ 22 , 64 , 65 ] and other variables. Therefore, a simple approach to evaluating changes in the GPR signal is not practical.…”

Section: Corrosion Monitoring Using Ground-penetrating Radarmentioning

confidence: 99%

Non-Destructive Corrosion Inspection of Reinforced Concrete Using Ground-Penetrating Radar: A Review

2021

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Reduced maintenance costs of concrete structures can be ensured by efficient and comprehensive condition assessment. Ground-penetrating radar (GPR) has been widely used in the condition assessment of reinforced concrete structures and it provides completely non-destructive results in real-time. It is mainly used for locating reinforcement and determining concrete cover thickness. More recently, research has focused on the possibility of using GPR for reinforcement corrosion assessment. In this paper, an overview of the application of GPR in corrosion assessment of concrete is presented. A literature search and study selection methodology were used to identify the relevant studies. First, the laboratory studies are shown. After that, the studies for the application on real structures are presented. The results have shown that the laboratory studies have not fully illuminated the influence of the corrosion process on the GPR signal. Also, no clear relationship was reported between the results of the laboratory studies and the on-site inspection. Although the GPR has a long history in the condition assessment of structures, it needs more laboratory investigations to clarify the influence of the corrosion process on the GPR signal.

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Bridge Deck Condition Assessment Using GPR: System Configuration and Defects’ Characterization

Hu,

Wang,

Guo

et al. 2024

Construction Research Congress 2024

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Simulated GPR Investigation of Deterioration in Reinforced Concrete Bridge Decks

Cited by 4 publications

References 19 publications

Data acquisition and processing parameters for concrete bridge deck condition assessment using ground-coupled ground penetrating radar: Some considerations

Data acquisition and processing parameters for concrete bridge deck condition assessment using ground-coupled ground penetrating radar: Some considerations

Non-Destructive Corrosion Inspection of Reinforced Concrete Using Ground-Penetrating Radar: A Review

Bridge Deck Condition Assessment Using GPR: System Configuration and Defects’ Characterization

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