Detail publikace
Acoustic Emission method as a Comparative Tool for Results Obtained Using Impedance Spectroscopy - Applied for Cementing Compound Specimens with Various Capillary Porosity Levels
KUSÁK, I. LUŇÁK, M. PAZDERA, L.
Originální název
Acoustic Emission method as a Comparative Tool for Results Obtained Using Impedance Spectroscopy - Applied for Cementing Compound Specimens with Various Capillary Porosity Levels
Anglický název
Acoustic Emission method as a Comparative Tool for Results Obtained Using Impedance Spectroscopy - Applied for Cementing Compound Specimens with Various Capillary Porosity Levels
Jazyk
en
Originální abstrakt
The paper deals with an application of the acoustic emission method to cementing compound specimens featuring different capillary porosity levels. The experiment has been intended to contribute another method of checking the impedance-spectroscopy method results. The different capillary porosity levels of the cementing compound have been confirmed and distinguished successfully.
Anglický abstrakt
The paper deals with an application of the acoustic emission method to cementing compound specimens featuring different capillary porosity levels. The experiment has been intended to contribute another method of checking the impedance-spectroscopy method results. The different capillary porosity levels of the cementing compound have been confirmed and distinguished successfully.
Dokumenty
BibTex
@article{BUT50141,
author="Ivo {Kusák} and Miroslav {Luňák} and Luboš {Pazdera}",
title="Acoustic Emission method as a Comparative Tool for Results Obtained Using Impedance Spectroscopy - Applied for Cementing Compound Specimens with Various Capillary Porosity Levels",
annote="The paper deals with an application of the acoustic emission method to cementing compound
specimens featuring different capillary porosity levels. The experiment has been intended to
contribute another method of checking the impedance-spectroscopy method results. The different
capillary porosity levels of the cementing compound have been confirmed and distinguished
successfully.",
chapter="50141",
journal="The e-Journal of Nondestructive Testing",
number="2",
volume="3",
year="2010",
month="october",
pages="45--50",
type="journal article - other"
}