Simple method for characterizing synthetic graphite powders

Celzard, Alain; Marêché, J.F.; Payot, F.

doi:10.1088/0022-3727/33/12/318

Cited by 27 publications

(20 citation statements)

References 18 publications

(22 reference statements)

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“…4,5 Here the percolation threshold of composites filled with graphite fillers has been estimated 10,11 according to procedures described in details in Refs. [15][16][17][18][19], based on either percolation or on effective-medium theories. All the size/geometry data of used graphite fillers along with the estimated percolation thresholds are gathered in Table II.…”

Section: Electromagnetic Characterizationmentioning

confidence: 99%

Microstructure, elastic and electromagnetic properties of epoxy-graphite composites

et al. 2015

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A set of epoxy resin-based composites filled with 0.25 – 2.0 wt.% of commercially available exfoliated graphite (EG) and thick graphene (TG), prepared by suspending EG particles in cyclohexane, and submitting the suspension to a series of grinding and ultrasonic dispersion steps, was produced. The microstructure of such epoxy-graphite composites has been studied by the impulse acoustic microscopy technique. According to acoustic microscopy data, exfoliated graphite microparticles have been well dispersed in the epoxy matrix. TG nanoflakes demonstrated persistent tendency to clustering and formation of agglomerates. The addition of graphite particles in small amount (0.25 – 2.0 wt.%) did not influence the bulk elastic properties of epoxy-graphite composite materials. Being extremely lightweight, 0.003 g cm−3, EG had a lower percolation threshold than TG, at the level of 1-1.5 wt.% against 2.1-3.2 wt.%, respectively. As a result, epoxy composites filled with 1.0-2.0 wt.% EG provided high electromagnetic (EM) interference shielding both at microwave and THz frequencies. In contrast, no significant influence of TG loading was observed at low weight fraction (up to 2 wt.%) on the EM performance of epoxy composites.

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Section: Electromagnetic Characterizationmentioning

confidence: 99%

Microstructure, elastic and electromagnetic properties of epoxy-graphite composites

et al. 2015

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“…Moreover, even assuming that the actual geometry and inclusion size are well characterized, existing percolation theory generally only predicts a range for v c . 13 This range becomes more dubious given the challenge of accurately accounting for certain behavior on a microscopic behavior, such as particle-to-particle interaction or particle alignment, which can alter v c .…”

Section: Model Development and Assessmentmentioning

confidence: 99%

“…13,15 For our initial fits, we assumed that A should be fixed for a given inclusion aspect ratio, so we set it to different values and determined best-fit values of s and t for each experimental frequency and volume fraction of the SS and iron sphere data. For these calculations, we assumed σ = 1.4 × 10 6 S/m and 1 × 10 7 S/m for SS and iron, respectively.…”

Section: Model Development and Assessmentmentioning

confidence: 99%

Predicting effective permittivity of composites containing conductive inclusions at microwave frequencies

2012

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A review and analysis of microwave absorption in polymer composites filled with carbonaceous particles Journal of Applied Physics 111, 061301 (2012) We predict the effective dielectric properties at microwave frequencies of composites containing various volume loadings of high conductivity (stainless steel or iron) spheres or flakes by adapting the semi-empirical method developed by McLachlan. Rather than the typical approach of fixing A (A = 1/v c -1, where v c is percolation threshold) for a given inclusion shape, we consider it as an unknown and fix one of the geometric exponents. We observe that A varies linearly with the inverse of volume loading with a higher slope for flakes than spheres. The exponent is consistently higher for spheres than flakes and for iron than stainless steel. We achieve good agreement between measured and calculated permittivity over a wide range of volume loadings, inclusion shapes, and materials from 3 to 20 GHz.

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“…In a previous work dealing with ellipsoidal particles having an infinite range of sizes and semi-axes a = b = c (Celzard et al 2000), application of EMT to anisotropic particles was shown to lead to the following expression of the percolation threshold:…”

Section: Connectivity Thresholdmentioning

confidence: 99%

“…In the case of ellipsoids of revolution, called spheroids, i.e., with principal semi-axes such that a = b = c, the depolarization factors obey L a = L b = 1/2 (1 -L c ), and always L a + L b + L c = 1. A figure showing the way L a and L c change with the aspect ratio of the spheroids may be found in Celzard et al (2000). For a prolate ellipsoid, i.e., such that a = b \ c (see Fig.…”

Section: Connectivity Thresholdmentioning

confidence: 99%

Flocculation of cellulose fibre suspensions: the contribution of percolation and effective-medium theories

Celzard

Fierro

Pizzi³

2008

Cellulose

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The concept of crowding factor applied to the flocculation of cellulose fibres is revisited through the application of percolation and effective medium theories. It is shown that, even if the crowding factor allows predicting the critical concentration of fibre suspension above which flocculation occurs, and indeed leads to acceptable results in most cases, percolation and effective medium theories are most rigorous and much less empirical. Examples of calculation are given for fibres assumed to behave either like rigid rods or like elongated prolate ellipsoids, and compare very correctly with experimental measurements found in the literature. Finally, beyond the purely geometrical aspects, the roles of several physico-chemical parameters on the onset of flocculation are also discussed, and shown to be perfectly explained by percolation predictions.

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Simple method for characterizing synthetic graphite powders

Cited by 27 publications

References 18 publications

Microstructure, elastic and electromagnetic properties of epoxy-graphite composites

Microstructure, elastic and electromagnetic properties of epoxy-graphite composites

Predicting effective permittivity of composites containing conductive inclusions at microwave frequencies

Flocculation of cellulose fibre suspensions: the contribution of percolation and effective-medium theories

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