Internal crack detection in concrete pavement using discrete strain sensors

Cracking in concrete pavements is a major concern for their performance, especially the existence of the internal bottom-up cracks. These cracks may induce water penetration in-pavement structure and foundation, resulting in-pavement degradation. Early detection of the hidden cracks in concrete pave...

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Veröffentlicht in:	Journal of civil structural health monitoring 2020-04, Vol.10 (2), p.345-356
Hauptverfasser:	Alshandah, Mohanad, Huang, Ying, Gao, Zhili, Lu, Pan
Format:	Artikel
Sprache:	eng
Schlagworte:	Civil Engineering Concrete pavements Control Crack propagation Dynamical Systems Engineering Flaw detection Fracture mechanics Linear elastic fracture mechanics Measurement Science and Instrumentation Original Paper Sensors Vibration
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creator	Alshandah, Mohanad Huang, Ying Gao, Zhili Lu, Pan
description	Cracking in concrete pavements is a major concern for their performance, especially the existence of the internal bottom-up cracks. These cracks may induce water penetration in-pavement structure and foundation, resulting in-pavement degradation. Early detection of the hidden cracks in concrete pavements can expedite timely maintenance, which improves the safety of the infrastructure. This paper develops a detection system for internal crack location and propagation using discrete strain sensors at the bottom of the concrete pavements. In this study, based on linear elastic fracture mechanics, a theoretical approach is derived from locating the bottom-up crack and tracking the crack propagation using a minimum of two discrete in-pavement strain sensors. Experimental results showed that the proposed crack detection approach with two discrete strain sensors could detect bottom-up cracks with an average measurement accuracy of 82.4% for three specimens tested in the laboratory. This study may provide an alternative technique to detect hidden bottom-up cracks in concrete pavements.
doi_str_mv	10.1007/s13349-020-00388-2
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These cracks may induce water penetration in-pavement structure and foundation, resulting in-pavement degradation. Early detection of the hidden cracks in concrete pavements can expedite timely maintenance, which improves the safety of the infrastructure. This paper develops a detection system for internal crack location and propagation using discrete strain sensors at the bottom of the concrete pavements. In this study, based on linear elastic fracture mechanics, a theoretical approach is derived from locating the bottom-up crack and tracking the crack propagation using a minimum of two discrete in-pavement strain sensors. Experimental results showed that the proposed crack detection approach with two discrete strain sensors could detect bottom-up cracks with an average measurement accuracy of 82.4% for three specimens tested in the laboratory. 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These cracks may induce water penetration in-pavement structure and foundation, resulting in-pavement degradation. Early detection of the hidden cracks in concrete pavements can expedite timely maintenance, which improves the safety of the infrastructure. This paper develops a detection system for internal crack location and propagation using discrete strain sensors at the bottom of the concrete pavements. In this study, based on linear elastic fracture mechanics, a theoretical approach is derived from locating the bottom-up crack and tracking the crack propagation using a minimum of two discrete in-pavement strain sensors. Experimental results showed that the proposed crack detection approach with two discrete strain sensors could detect bottom-up cracks with an average measurement accuracy of 82.4% for three specimens tested in the laboratory. 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subjects	Civil Engineering Concrete pavements Control Crack propagation Dynamical Systems Engineering Flaw detection Fracture mechanics Linear elastic fracture mechanics Measurement Science and Instrumentation Original Paper Sensors Vibration
title	Internal crack detection in concrete pavement using discrete strain sensors
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