Electrophysical properties of composites based on the epoxy resin and expanded graphite

Sirenko, O. G.; Makhno, S. M.; Lisova, O. M.; Gunya, G. M.; Горбик, П. П.

doi:10.15407/hftp09.04.442

Cited by 2 publications

(1 citation statement)

References 2 publications

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“…One of the examples of such modification is the development of a composition for shielding from electromagnetic fields, that is based on pearlite, epoxy resin and thermally expanded graphite [1], with the inclusion of graphite in a cement matrix itself [2]. The electrical conductivity of the cement matrix can also be decreased by the introduction of carbon nanotubes [3].…”

Section: Introductionmentioning

confidence: 99%

Effect of Carbon-Containing Additives on the Properties of Fluoroanhydrite Compositions Used for Flooring

Kalabina

Yakovlev

Saidova

et al. 2022

KEM

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The effect of carbon-containing additives on the physical, mechanical and electrical properties of the fluoroanhydrite composition used for self-leveling floors has been investigated. Copper/carbon nanocomposite, crushed technogenic graphite and thermally expanded graphite were used as modifying additives in this research. A method for obtaining thermally expanded graphite was described; the efficiency of its introduction into the plasticized fluoroanhydrite composition was proven: the electrical resistance of the material decreased by 11 times with an insignificant drop in strength on the 7th day from 34.9 to 29.8 MPa (15%). Modification of the composition with copper/carbon nanocomposite did not prove to be effective, leading to a 3-fold decrease in the electrical resistance of the material accompanied by a 4-fold decrease in the compressive strength of the samples. Modification of the composition with micro-sized particles of technogenic graphite lead to a decrease in the strength of the material by 28% without affecting its electrically conductive properties.

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Section: Introductionmentioning

confidence: 99%

Effect of Carbon-Containing Additives on the Properties of Fluoroanhydrite Compositions Used for Flooring

Kalabina

Yakovlev

Saidova

et al. 2022

KEM

View full text Add to dashboard Cite

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Electrophysical properties of composites based on epoxy resin and carbon fillers

Sirenko¹,

Lisova²,

Makhno³

et al. 2021

Him. Fiz. Tehnol. Poverhni

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Polymeric construction materials based on epoxy resin, carbon fillers, such as graphene nanoplates (GNP), carbon nanotubes (CNT) and fillers of inorganic nature – perlite, vermiculite, sand with improved electrophysical characteristics have been developed. The electrophysical propertieгs of composites obtained in various ways which differ according to the principle of injecting components have been investigated. GNP were obtained in two ways. Size distribution of GNP obtained by electrochemical method is 50 to 150 nm. The average particle size is up to 100 nm. It occurs that these particles tend to aggregate as it is shown by the method of dynamic light scattering. The GNP obtained by dispersing thermally expanded graphite in water in a rotary homogenizer have a particle size distribution of 400 to 800 nm if very small particles and large aggregates are absent. The second method of obtaining GNP is less energy consuming and requires fewer manufacturing cycles, so it is more cost-effective. Obtaining composites using aqueous suspensions of GNP is environmentally friendly. Due to the hydrophobic properties of its surface the electrical conductivity of the system which uses vermiculite is higher than one of that which uses perlite for composites with CNT and GNP. It has been found that the difference of electrophysical characteristics between two systems which contain the same amount of carbon filler is caused by the nature of the surface of dielectric components – sand. By changing the content of dielectric ingredients can expand the functionality of composites if use them for shielding from electromagnetic fields.

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Electrophysical properties of composites based on the epoxy resin and expanded graphite

Cited by 2 publications

References 2 publications

Effect of Carbon-Containing Additives on the Properties of Fluoroanhydrite Compositions Used for Flooring

Effect of Carbon-Containing Additives on the Properties of Fluoroanhydrite Compositions Used for Flooring

Electrophysical properties of composites based on epoxy resin and carbon fillers

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