Control of Defects on the Parameters of the Electromagnetic Response under Pulsed Mechanical Excitation of the Sample

Petr Khorsov; Nikolay Khorsov; Vladimir Surzhikov

doi:10.4028/www.scientific.net/AMR.1085.316

Paper Titles

Features of Stress Changes in the Alloy Ti₅₀Ni_48,7Mo_0,3V₁ under Loading in a Wide Temperature Range
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Structural Phase State of the Ceramic Layer of ZrO₂
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Investigation of the Influence of Ti-Nb Alloy Composition on the Structure of the Ingots Produced by Arc Melting
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Influence of Physical Properties of B₄C Powder on the Strength Properties of the Ceramics Manufactured by SPS Sintering
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Control of Defects on the Parameters of the Electromagnetic Response under Pulsed Mechanical Excitation of the Sample
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Recrystallization Features in Olivine from Dunites of the Tarlashkinsk Ultramafic Massif: New Data from the EBSD Analysis of Rock-Forming Grains
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Methods for Producing of Cement Mixes Additives Based on Peat
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Investigation of Defects Accumulation in the Process of Hydrogen Sorption and Desorption
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Eddy Current Analysis for Nuclear Power Materials
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1085Control of Defects on the Parameters of the...

Control of Defects on the Parameters of the Electromagnetic Response under Pulsed Mechanical Excitation of the Sample

Abstract:

The paper assessed the possibility of using acoustic emission from the dielectric sample during stepwise loading. The electromagnetic signal from the sample was detected by using an apparatus of mechanical repeatedly pulsed excitation of the sample at each stage of loading. It was found that the response consists of a deterministic component (due to the excitation pulse) and random components noise and acoustic emission. It were allocated random components, calculated their standard deviations. The influence of the electromagnetic emission on standard deviation of the random component of response under step load on the specimen was evaluated. It has been shown that the component of the electromagnetic emission can be an informative parameter to evaluate defectiveness of the object of a dielectric material under load.

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Periodical:

Advanced Materials Research (Volume 1085)

Pages:

316-318

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1085.316

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Online since:

February 2015

Authors:

Petr Khorsov, Nikolay Khorsov*, Vladimir Surzhikov

Keywords:

Defect, Deflected Mode, Dielectric, Electromagnetic Emission, Mechanoelectrical Transformations

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