Monitoring of the ultrasonic<i>P</i>-wave velocity in early-age concrete using Smart Aggregates

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

doi:10.1051/matecconf/20120101001

Cited by 3 publications

(1 citation statement)

References 5 publications

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“…Such kind of transducers have been successfully used for the monitoring of (i) cement and concrete hydration [3][4][5] (ii) mechanical properties of concrete, including the evolution of the E-Modulus [6] and the compressive strength [7] of concrete at early age, the acoustoelastic effect in compression [8,9], (iii) concrete cracking [2,[9][10][11][12][13][14][15][16], (iv) acoustic emission detection [17] , (v) impact direction detection [18], (vi) stress wave communication [19][20][21], (vii) self-healing of cracks [22][23][24][25], (viii) water seepage [26,27].…”

Section: Introductionmentioning

confidence: 99%

A study on the performance of piezoelectric composite materials for designing embedded transducers for concrete assessment

Dumoulin

2018

Smart Mater. Struct.

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Ultrasonic measurements of concrete can provide crucial information about its state of health. The most common practice in the construction industry consists in using external probes which strongly limits the use of the method since large parts of the in-service structures are difficult to access. It is also possible to assess in real time the setting process of the concrete using ultrasonic measurements. In practice, the field measurement of the concrete hardening is limited by the formworks. As an alternative, some research teams have studied the possibility to directly embed the transducers into the concrete structures. The current embedded ultrasonic transducers are of two categories: bulk piezoelectric elements surrounded by several coating and matching layers and composites piezoelectric elements. Both technologies aim at optimizing the wave energy transmitted to the tested medium. The performances of the transducers of the first kind have been studied in a previous study. A fair amount of recent research has been focused on the development of novel cement-based piezoelectric composites. In this study, we first compare the effective properties of such cement-based materials with more widespread composites made with matrices of epoxy resins or polyurethane. The study only concerns the 1-3 fiber arrangement composites. The effective properties are computed using both an analytical mixing rule method and a finite element based homogenization method using representative volume elements (RVEs) which allows for considering more realistic fiber arrangements, leading yet to very similar results. The effective piezoelectric properties of cement-based composites appear to be very low compared to composites made of epoxy or polyurethane. This result is underlined by looking at the acoustic response and the electric input impedance of different piezoelectric discs where we compare performances of such transducers with a low-cost bulk piezoelectric disc element. The first radial mode of the latter is responsible for an acoustic response of the same order of magnitude as those for the piezo-composites. This result confirms that the design of efficient low-cost embedded ultrasonic transducers can be done with such piezoceramic discs.

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Section: Introductionmentioning

confidence: 99%

A study on the performance of piezoelectric composite materials for designing embedded transducers for concrete assessment

Dumoulin

2018

Smart Mater. Struct.

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Smart embedded PZT sensor for in-situ elastic property and vibration measurements in concrete

2021

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Influence of the Poisson’s Ratio on the Value of the Dynamic Modulus of Elasticity of Cement Materials in the Early Stage of Ageing

Halamová

Kocáb

Kucharczyková

et al. 2019

SSP

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The paper deals with the influence of the Poisson’s ratio on the calculated modulus of elasticity of a cementitious composite in the early stage of its ageing. The dynamic modulus of elasticity was determined in the first 24 hours of ageing of the material using the Vikasonic ultrasonic device. Within the experiment, two types of cementitious composites were mixed - cement paste and cement mortar, both having the same water/cement ratio. It is presumed that the value of the dynamic modulus of elasticity calculated on the basis of ultrasonic measurement is closely related to the value of the Poisson’s ratio, which is not constant during ageing of the cementitious composite but varies depending on the degree of hydration of the material. The output of the paper is a comparison of the development of the dynamic modulus of elasticity calculated using different values of the Poisson’s ratio.

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Monitoring of the ultrasonicP-wave velocity in early-age concrete using Smart Aggregates

Cited by 3 publications

References 5 publications

A study on the performance of piezoelectric composite materials for designing embedded transducers for concrete assessment

A study on the performance of piezoelectric composite materials for designing embedded transducers for concrete assessment

Smart embedded PZT sensor for in-situ elastic property and vibration measurements in concrete

Influence of the Poisson’s Ratio on the Value of the Dynamic Modulus of Elasticity of Cement Materials in the Early Stage of Ageing

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