The relationship between the parameters of the electric and the acoustic signal with the destruction of concrete under cyclic freeze-thaw

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Abstract

The paper presents the research results of the effect of formation crack process on the parameters of the electric and acoustic response to impact excitation. The physical basis of mechanoelectric transformations is described. It was found that with increasing number of freeze-thaw cycles observed increase of the attenuation coefficient of energy of the electric and acoustic response by a linear relationship. Differences in the dynamics of change of attenuation coefficient of energy of the electric and acoustic response associated with differences in formation and registration of electric and acoustic response.

Original languageEnglish
Article number012013
JournalJournal of Physics: Conference Series
Volume671
Issue number1
DOIs
Publication statusPublished - 18 Jan 2016

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destruction
acoustics
attenuation coefficients
crack initiation
cycles
energy
excitation

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

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abstract = "The paper presents the research results of the effect of formation crack process on the parameters of the electric and acoustic response to impact excitation. The physical basis of mechanoelectric transformations is described. It was found that with increasing number of freeze-thaw cycles observed increase of the attenuation coefficient of energy of the electric and acoustic response by a linear relationship. Differences in the dynamics of change of attenuation coefficient of energy of the electric and acoustic response associated with differences in formation and registration of electric and acoustic response.",
author = "T. Fursa and D. Dann and Surzhikov, {Anatoly Petrovich} and M. Petrov",
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AB - The paper presents the research results of the effect of formation crack process on the parameters of the electric and acoustic response to impact excitation. The physical basis of mechanoelectric transformations is described. It was found that with increasing number of freeze-thaw cycles observed increase of the attenuation coefficient of energy of the electric and acoustic response by a linear relationship. Differences in the dynamics of change of attenuation coefficient of energy of the electric and acoustic response associated with differences in formation and registration of electric and acoustic response.

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