Monitoring Shear Behavior of Prestressed Concrete Bridge Girders Using Acoustic Emission and Digital Image Correlation

Fengqiao Zhang; Gabriela I. Zarate Garnica; Yuguang Yang; Eva Lantsoght; Henk Sliedrecht

doi:10.3390/s20195622

Monitoring Shear Behavior of Prestressed Concrete Bridge Girders Using Acoustic Emission and Digital Image Correlation

Fengqiao Zhang, Gabriela I. Zarate Garnica, Yuguang Yang, Eva Lantsoght, Henk Sliedrecht

Concrete Structures

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Abstract

In the Netherlands, many prestressed concrete bridge girders are found to have insufficient shear–tension capacity. We tested four girders taken from a demolished bridge and instrumented these with traditional displacement sensors and acoustic emission (AE) sensors, and used cameras for digital image correlation (DIC). The results show that AE can detect cracking before the traditional displacement sensors, and DIC can identify the cracks with detailed crack kinematics. Both AE and DIC methods provide additional information for the structural analysis, as compared to the conventional measurements: more accurate cracking load, the contribution of aggregate interlock, and the angle of the compression field. These results suggest that both AE and DIC are suitable options that warrant further research on their use in lab tests and field testing of prestressed bridges.

Original language	English
Article number	5622
Pages (from-to)	1-21
Number of pages	21
Journal	Sensors
Volume	20
Issue number	19
DOIs	https://doi.org/10.3390/s20195622
Publication status	Published - 2020

Keywords

Acoustic emission measurements
Crack identification
Cracking
Digital image correlation
Prestressed concrete bridge girders
Shear

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10.3390/s20195622

sensors-20-05622Final published version, 9.68 MBLicence: CC BY

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title = "Monitoring Shear Behavior of Prestressed Concrete Bridge Girders Using Acoustic Emission and Digital Image Correlation",

abstract = "In the Netherlands, many prestressed concrete bridge girders are found to have insufficient shear–tension capacity. We tested four girders taken from a demolished bridge and instrumented these with traditional displacement sensors and acoustic emission (AE) sensors, and used cameras for digital image correlation (DIC). The results show that AE can detect cracking before the traditional displacement sensors, and DIC can identify the cracks with detailed crack kinematics. Both AE and DIC methods provide additional information for the structural analysis, as compared to the conventional measurements: more accurate cracking load, the contribution of aggregate interlock, and the angle of the compression field. These results suggest that both AE and DIC are suitable options that warrant further research on their use in lab tests and field testing of prestressed bridges.",

keywords = "Acoustic emission measurements, Crack identification, Cracking, Digital image correlation, Prestressed concrete bridge girders, Shear",

author = "Fengqiao Zhang and {Zarate Garnica}, {Gabriela I.} and Yuguang Yang and Eva Lantsoght and Henk Sliedrecht",

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T1 - Monitoring Shear Behavior of Prestressed Concrete Bridge Girders Using Acoustic Emission and Digital Image Correlation

AU - Zhang, Fengqiao

AU - Zarate Garnica, Gabriela I.

AU - Yang, Yuguang

AU - Lantsoght, Eva

AU - Sliedrecht, Henk

PY - 2020

Y1 - 2020

N2 - In the Netherlands, many prestressed concrete bridge girders are found to have insufficient shear–tension capacity. We tested four girders taken from a demolished bridge and instrumented these with traditional displacement sensors and acoustic emission (AE) sensors, and used cameras for digital image correlation (DIC). The results show that AE can detect cracking before the traditional displacement sensors, and DIC can identify the cracks with detailed crack kinematics. Both AE and DIC methods provide additional information for the structural analysis, as compared to the conventional measurements: more accurate cracking load, the contribution of aggregate interlock, and the angle of the compression field. These results suggest that both AE and DIC are suitable options that warrant further research on their use in lab tests and field testing of prestressed bridges.

AB - In the Netherlands, many prestressed concrete bridge girders are found to have insufficient shear–tension capacity. We tested four girders taken from a demolished bridge and instrumented these with traditional displacement sensors and acoustic emission (AE) sensors, and used cameras for digital image correlation (DIC). The results show that AE can detect cracking before the traditional displacement sensors, and DIC can identify the cracks with detailed crack kinematics. Both AE and DIC methods provide additional information for the structural analysis, as compared to the conventional measurements: more accurate cracking load, the contribution of aggregate interlock, and the angle of the compression field. These results suggest that both AE and DIC are suitable options that warrant further research on their use in lab tests and field testing of prestressed bridges.

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KW - Shear

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Monitoring Shear Behavior of Prestressed Concrete Bridge Girders Using Acoustic Emission and Digital Image Correlation

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Keywords

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