Monitoring of the ultrasonic P-wave velocity in early-age concrete with embedded piezoelectric transducers

Dumoulin, Cédric; Karaiskos, Grigorios; Carette, Jerome; Staquet, Stéphanie; Deraemaeker, Arnaud

doi:10.1088/0964-1726/21/4/047001

Cited by 79 publications

(70 citation statements)

References 9 publications

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“…In more recent research, some SA-based monitoring methods have also been proposed to monitor the early age hydration process of concrete [5]- [7]. However, as concrete is a multiphase composite material, there is plenty of free water in this mixture.…”

Section: Introductionmentioning

confidence: 99%

An Experimental Study on the Performance of Piezoceramic-Based Smart Aggregate in Water Environment

et al. 2014

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Abstract-A number of smart aggregate (SA)-based monitoring systems have been developed to monitor the early age hydration process of concrete. In these systems, the embedded SAs act as sensors and work in a solid-liquid mixture. However, the influence of water on the performance of SA is still unclear. This letter presents some efforts to study the working performance of SA in water environment. A SA-based monitoring system, with the SA sensors immersed in tap water for various periods, was designed to monitor the variation of sensing signals. The test results show that the influence of water on SA is vital. The amplitude of sensing signals increases greatly for the early hours in water, and is tending toward stability for subsequent time. This can thus explain why the amplitude of sensing signals increases fast during early hours in concrete hydration monitoring process.Index Terms-Amplitude of response signal, smart aggregate, stability in water environment.

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Section: Introductionmentioning

confidence: 99%

An Experimental Study on the Performance of Piezoceramic-Based Smart Aggregate in Water Environment

et al. 2014

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“…Until today, ultrasonic pulse velocity technique using SMAGs seems to be a practical, cheap and efficient technique to assess concrete curing conditions 23 and damage that overcomes the experimental limitations of traditional ultrasonic techniques. For the first time, SMAG transducer monitoring is successfully applied to evaluate the inverse fracture process: crack closure, sealing and recovery of concrete cracks up to 0.3 mm wide.…”

Section: Resultsmentioning

confidence: 99%

Crack sealing and damage recovery monitoring of a concrete healing system using embedded piezoelectric transducers

Tsangouri

Karaiskos

Deraemaeker

et al. 2015

Structural Health Monitoring

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The autonomous healing performance of concrete is experimentally verified by applying a technique based on the ultrasonic pulse velocity method using embedded piezoelectric transducers. Crack opening which deteriorates the mechanical capacity of concrete infrastructure is traditionally studied by different monitoring techniques that adequately provide a direct estimation of damage. Conversely in this research, an ultrasonic pulse velocity method is applied in order to monitor the crack closure and sealing of small-scale concrete beam elements. Short glass capsules filled with healing adhesive break due to crack formation and release those healing additives which fill the crack void and reset the element continuity. The damage index based on the early part of the wave arrival observes any emitted signal shape differentiation indicating the crack formation and development under two-cycle three-point bending loading tests (in the first cycle, the crack forms and healing release takes place, and consequently, after few hours of curing and crack reset, the beam is reloaded leading to crack reopening).

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“…Both the generated and received signals are recorded in order to measure the time delay between the signals and thus obtain the wave travel time through the material. These methods can be applied using compressional (P) or shear (S) waves (Van Den Abeele et al 2009), generated by means of: an ultrasonic wave transmitter (Reinhardt and Grosse 2004), a smartaggregate (embedded piezoelectric element) (Dumoulin et al 2012), a bender or bender-extender element (Zhu et al 2011b), or an external impact (Lin et al 2010).…”

Section: Pulse Velocity Methodsmentioning

confidence: 99%

“…The methods based on wave propagation, often called acoustic methods, can be divided into two main groups: wave transmission methods, which include the ultrasound wave transmission methods (Dumoulin et al 2012) and the bender-extender elements (Lings and Greening 2001;Zhu and Kee 2010;Silva et al 2013); and wave reflection methods (Voigt 2005;Akkaya et al 2003). These testing techniques are based on the principle that the velocity (V) of a wave in a given material varies according to its elastic properties and density.…”

Section: Introductionmentioning

confidence: 99%

Comparison Between Different Experimental Techniques for Stiffness Monitoring of Cement Pastes

Granja

Azenha

Sousa

et al. 2014

ACT

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In 2009, a new methodology for the continuous monitoring of E-modulus of cement-based materials since casting was proposed, under the designation EMM-ARM (E-modulus Measurement through Ambient Response Method). This methodology is a variant to classic resonant frequency methods that allows continuous stiffness monitoring from the instant of casting. After the encouraging results obtained in the first applications of EMM-ARM to cement pastes, the present paper gives continuity to previous developments, through validations with additional experimental methodologies and extension to thermal activation testing. At first, a comparison is performed between the results of EMM-ARM and those obtained through: pulse velocity methods (both ultrasonic contact probes and bender-extender elements), penetration resistance (Vicat needle) and cyclic compression on cylindrical specimens. Afterwards, the possibility of studying the activation energy of the stiffness evolution on tests conducted at 20ºC and 40ºC is explored.

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Monitoring of the ultrasonic P-wave velocity in early-age concrete with embedded piezoelectric transducers

Cited by 79 publications

References 9 publications

An Experimental Study on the Performance of Piezoceramic-Based Smart Aggregate in Water Environment

An Experimental Study on the Performance of Piezoceramic-Based Smart Aggregate in Water Environment

Crack sealing and damage recovery monitoring of a concrete healing system using embedded piezoelectric transducers

Comparison Between Different Experimental Techniques for Stiffness Monitoring of Cement Pastes

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