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ISSN: 1820-0206
First published in
1950
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doi:10.5937/str2001036R
Vol. 70, No.1
(2020), Pages: 36-46
Impressum
Contents
Hybrid Filament-wound Materials: Tensile Characteristics of (Aramide
Fiber/Glass Fiber)-Epoxy Resins Composite and (Carbon Fibers/Glass
Fiber)-Epoxy Resins Composites
Jovan Radulović
In this paper a tensile characteristics of filament-wound glass
fiber-aramid fiber/epoxy resins hybrid composites and glass
fiber-two carbons fibers/epoxy resins hybrid composites are
presented. Basic terms about hybride composite materials (origin,
reasons for manufacturing, advantages, definitions, levels of
hybridization, modes of classifications, types, categorization, and
possible interactions between constituents) and used reinforcements
and matrices are described. For a manufacturing of NOL rings four
reinforcements (glass fiber, polyamide aromatic fiber and two carbon
fibers) and two matrices (high- and moderate- temperature curing
epoxy resin system) are used. Based on experimentally obtained
results, it is concluded that hybride composite material consisting
of carbon fiber T800 (67 % vol) and glass fiber GR600 (33 % vol)
impregnated with epoxy resin system L20 has the highest both the
tensile strength value and the specific tensile strength value. The
two lowest values of both tensile strength and the specific tensile
strength have hybrid material containing aramide fiber K49 (33 % vol)
and glass fiber GR600 (67 % vol) and epoxy resin system 0164 and
hybrid NOL ring with wound carbon fiber T300 (33 % vol) and glass
fiber GR600 (67 % vol) impregnated with the same epoxy resin system.
This investigation pointed out that increasing the volume content of
aramide fiberK49, carbon fiber T300 and carbon fiber T800 in
appropriate hybrid composites with glass fiber GR600 increases both
the tensile strength value and the specific tensile strength value
and decrease the density value, no matter the used epoxy resin
system.
Key
words: hybride composites, glass fiber, aramide fiber, carbon fiber,
epoxy resin system, NOL ring, tensile strength, density, specific
tensile strength, filament winding technology
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