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Dielectric properties of epoxy/graphite flakes composites: Influence of loading and surface treatment

TitleDielectric properties of epoxy/graphite flakes composites: Influence of loading and surface treatment
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2023
AuthorsMaletic, Slavica, Orsini Natasa Jovic, Milic Mirjana, c Jablan Dojcilovi, and Montone Amelia
JournalJ Appl Polym Sci
Volumee54881
Start Page1
Date Published11/2023
Type of Articlepaper peer review
ISSN00218995
KeywordsComposites, Dielectric properties, functionalized surfaces, graphite nanosheets
Abstract

Epoxy-rich carbon-based composites are well recognized materials in industries
owing to their good mechanical properties and thermal stability. Here,
dielectric properties of composites based on bisphenol-A-epoxy resin loaded
with 5, 6, 10, and 15 wt% of graphite flakes (GF) have been studied. The frequency
and temperature dependence of the dielectric permittivity, dielectric
loss, and ac conductivity have been examined in temperature ( 103 to 97 C)
and frequency (20 Hz–200 kHz) range. Influence of the filler surface chemistry
have been studied for composites loaded with 5 wt% GF obtained: (i) under
wet milling, without or with adding Triton-100x as a surfactant, or (ii) under
dry milling in the presence of KOH. The composite made of epoxy loaded with
5 wt% exfoliated expanded graphite flakes (EEG), was also prepared. The surface
treatment with KOH notably increased dielectric constant of the composite,
keeping low dielectric loss, while treatment with Triton-100x significantly
increased tanδ. The composite loaded with exfoliated expanded graphite shows
higher ac conductivity than those obtained with flaky graphite, GF. Possibility
to change dielectric properties of the composites without changing the loading
content can be used as an approach in tailoring one with desired dielectric
properties.

Notes

Cited by: 0; All Open Access, Bronze Open Access

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85176116311&doi=10.1002%2fapp.54881&partnerID=40&md5=86be797338862823c7606f5f211a7afd
DOI10.1002/app.54881
Citation Key11976