Ultrasonic pulse velocity test for non-destructive investigations of historical masonries: an experimental study of the effect of frequency and applied load on the response of a limestone

The ultrasonic pulse velocity (UPV) method can be conveniently used for non-destructive testing of physical–mechanical properties of the stones within historical masonry, as well as to check the state of damage and microcracking. Before to proceed with in situ measurements, it is important to assess...

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Veröffentlicht in:	Materials and structures 2017-02, Vol.50 (1), p.1-11, Article 38
Hauptverfasser:	Vasanelli, E., Calia, A., Luprano, V., Micelli, F.
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Sprache:	eng
Schlagworte:	Building construction Building Materials Civil Engineering Damage Dispersion (wave) Engineering Fracture mechanics Historical buildings Limestone Machines Manufacturing Masonry Materials Science Original Article Processes Solid Mechanics Stone Theoretical and Applied Mechanics Ultrasonic testing
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creator	Vasanelli, E. Calia, A. Luprano, V. Micelli, F.
description	The ultrasonic pulse velocity (UPV) method can be conveniently used for non-destructive testing of physical–mechanical properties of the stones within historical masonry, as well as to check the state of damage and microcracking. Before to proceed with in situ measurements, it is important to assess the contribution that both intrinsic characteristics of the stones and external factors may give to the ultrasonic response. In this work the effect of different wave frequencies, sample geometry and application of a compression load on the response of a natural stone to UPV test has been investigated. An extensive experimental campaign in laboratory conditions was carried out on a soft limestone, used in the historical building heritage of the Southern Italy. A negligible UPV dispersion was found at the used frequencies of 1 MHz, 120 and 55 kHz when a compression load was not applied; the measured velocities were found to be influenced by the stone inhomogeneity rather than by the sample size. They showed a slight decrease and still negligible dispersion under load up to the visible damage. Dispersion increased with the cracking progression. This indicates that enhanced capability of UPV, in checking material quality and damage conditions, can be obtained by combining the use of different wave frequencies.
doi_str_mv	10.1617/s11527-016-0892-7
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subjects	Building construction Building Materials Civil Engineering Damage Dispersion (wave) Engineering Fracture mechanics Historical buildings Limestone Machines Manufacturing Masonry Materials Science Original Article Processes Solid Mechanics Stone Theoretical and Applied Mechanics Ultrasonic testing
title	Ultrasonic pulse velocity test for non-destructive investigations of historical masonries: an experimental study of the effect of frequency and applied load on the response of a limestone
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