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Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/2567

Title: PRELIMINARY EXPERIMENTAL ASSESSMENT OF RADIAL FLOW PERMEABILITY VARIATION WITH THE COMPRESSION LEVEL OF 3D FABRICS
Authors: Enescu, Cătălin
TURTOI, Petrică
Stanciu, Mihăiță
Cicone, Traian
Keywords: porous material
permeability
three-dimensional fabric
Darcy
Issue Date: Oct-2021
Publisher: Transilvania University Press of Braşov
Citation: http://scholar.google.ro/
Series/Report no.: COMEC 2021;23-28
Abstract: During the last two decades, continuous efforts have been made in our research group to evaluate the damping capacity of soft, porous layers imbibed with liquids and subjected to normal impact. The effect is strongly related to the liquid permeability of structures and its variation with the level of compression. Recently, a new candidate material has been successfully tested for impact damping, namely a three-dimensional fabric. This paper presents preliminary experimental results obtained on a radial permeameter for a commercially available 3D fabric. Data analyses have shown a quasi-linear pressure variation with liquid velocity and excellent repeatability. Based on Darcy’s law for axi-symmetric in-plane flows, the variation of permeability with the thickness of the layer was obtained. The experimental results have been confronted with the predictions of the well-known Kozeny-Carman equation.
URI: http://hdl.handle.net/123456789/2567
ISSN: 2457-8541
Appears in Collections:COMEC 2021

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