Surface wave dispersion in cement-based media: Inclusion size effect

D. G. Aggelis; T. Shiotani

doi:10.1016/j.ndteint.2008.01.010

Surface wave dispersion in cement-based media: Inclusion size effect

D. G. Aggelis, T. Shiotani

Mechanics of Materials and Constructions

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

This paper presents the experimental study of surface wave propagation in cementitious material with different shape and size but same volume content of thin inclusions that simulate distributed damage. The Rayleigh wave velocity changes almost up to 20% depending on the inclusion shape, while the longitudinal velocity, the experimental variance, as well as the coherence of the signals is also affected. It is demonstrated that the material is strongly dispersive and caution should be taken for the interpretation of the wave measurements since the velocity is sensitive not only to the damage content but also to the "crack" size.

Original language	English
Pages (from-to)	319-325
Number of pages	7
Journal	NDT and E International
Volume	41
Issue number	5
DOIs	https://doi.org/10.1016/j.ndteint.2008.01.010
Publication status	Published - 1 Jul 2008

Keywords

Concrete
Dispersion
Scattering
Ultrasound

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N2 - This paper presents the experimental study of surface wave propagation in cementitious material with different shape and size but same volume content of thin inclusions that simulate distributed damage. The Rayleigh wave velocity changes almost up to 20% depending on the inclusion shape, while the longitudinal velocity, the experimental variance, as well as the coherence of the signals is also affected. It is demonstrated that the material is strongly dispersive and caution should be taken for the interpretation of the wave measurements since the velocity is sensitive not only to the damage content but also to the "crack" size.

AB - This paper presents the experimental study of surface wave propagation in cementitious material with different shape and size but same volume content of thin inclusions that simulate distributed damage. The Rayleigh wave velocity changes almost up to 20% depending on the inclusion shape, while the longitudinal velocity, the experimental variance, as well as the coherence of the signals is also affected. It is demonstrated that the material is strongly dispersive and caution should be taken for the interpretation of the wave measurements since the velocity is sensitive not only to the damage content but also to the "crack" size.

KW - Concrete

KW - Dispersion

KW - Scattering

KW - Ultrasound

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ER -

Surface wave dispersion in cement-based media: Inclusion size effect

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Keywords

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