Testing an Impedance Non-destructive Method to Evaluate Steel-Fiber Concrete Samples-Reference-Cited by-同舟云学术

Testing an Impedance Non-destructive Method to Evaluate Steel-Fiber Concrete Samples

Published:2018-02-01 Issue:1 Volume:18 Page:35-40
ISSN:1335-8871
Container-title:Measurement Science Review
language:en
Short-container-title:

Author:

Komarkova Tereza¹,Fiala Pavel²,Steinbauer Miloslav³,Roubal Zdenek³

Affiliation:

1. Department of Building and Testing, Faculty of Civil Engineering , BUT , Veveri 95, 602 00 , Brno , Czech Republic

2. SIX Centre, FEEC , BUT , Technická 3082/12, 616 00 , Brno , FEEC , BUT , Technicka 3082/12, 616 00 Brno ; Czech Republic

3. Department of Theoretical and Experimental Electrical Engineering, FEEC , BUT , Technicka 3082/12, 616 00 , Brno ; Czech Republic

Abstract

Abstract Steel-fiber reinforced concrete is a composite material characterized by outstanding tensile properties and resistance to the development of cracks. The concrete, however, exhibits such characteristics only on the condition that the steel fibers in the final, hardened composite have been distributed evenly. The current methods to evaluate the distribution and concentration of a fiber composite are either destructive or exhibit a limited capability of evaluating the concentration and orientation of the fibers. In this context, the paper discusses tests related to the evaluation of the density and orientation of fibers in a composite material. Compared to the approaches used to date, the proposed technique is based on the evaluation of the electrical impedance Z in the band close to the resonance of the sensor–sample configuration. Using analytically expressed equations, we can evaluate the monitored part of the composite and its density at various depths of the tested sample. The method employs test blocks of composites, utilizing the resonance of the measuring device and the measured sample set; the desired state occurs within the interval of between f=3 kHz and 400 kHz.

Publisher

Walter de Gruyter GmbH

Subject

Instrumentation,Biomedical Engineering,Control and Systems Engineering

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