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Static and Dynamic Strain Monitoring of Reinforced Concrete Components through Embedded Carbon Nanotube Cement-Based Sensors

Opened Access Static and Dynamic Strain Monitoring of Reinforced Concrete Components through Embedded Carbon Nanotube Cement-Based Sensors

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Autor: D’Alessandro, Antonella
Ubertini, Filippo
García-Macías, Enrique
Castro-Triguero, Rafael
Downey, Austin
Laflamme, Simon
Meoni, Andrea
Materazzi, A. Luigi
Departamento: Universidad de Sevilla. Departamento de Mecánica de los Medios Contínuos y Teoría de Estructuras
Fecha: 2017
Publicado en: Shock and Vibration, 2017, 1-11.
Tipo de documento: Artículo
Resumen: The paper presents a study on the use of cement-based sensors doped with carbon nanotubes as embedded smart sensors for static and dynamic strain monitoring of reinforced concrete (RC) elements. Such novel sensors can be used for the monitoring of civil infrastructures. Because they are fabricated from a structural material and are easy to utilize, these sensors can be integrated into structural elements for monitoring of different types of constructions during their service life. Despite the scientific attention that such sensors have received in recent years, further research is needed to understand (i) the repeatability and accuracy of sensors’ behavior over a meaningful number of sensors, (ii) testing configurations and calibration methods, and (iii) the sensors’ ability to provide static and dynamic strain measurements when actually embedded in RC elements. To address these research needs, this paper presents a preliminary characterization of the self-sensing capabilities and the...
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Cita: D’Alessandro, A., Ubertini, F., García-Macías, E., Castro-Triguero, R., Downey, A., Laflamme, S.,...,Materazzi, A.L. (2017). Static and Dynamic Strain Monitoring of Reinforced Concrete Components through Embedded Carbon Nanotube Cement-Based Sensors. Shock and Vibration, 2017, 1-11.
Tamaño: 4.646Mb
Formato: PDF

URI: https://hdl.handle.net/11441/71647

DOI: 10.1155/2017/3648403

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