PENGARUH FILLER ORAGANO-CLAY TERHADAP SIFAT MEKANIK MATERIAL NANOCOMPOSIT BERMATRIX EPOXY
Keywords:
Nanocomposites epoxy-organo clay materials, Montmorillonite (MMI'), cycloaliphatic amine, Mechanical propertiesAbstract
The aim of this research was to study the influence of the organoclay contents to the mechanicalproperties of nanocomposites materials. In situ polymerization used to synthesize nanocompositesepoxy-organo clay materials. Tensile test and compressive test were conducted based on ASTMstandards. The nanocomposite properties were compared to epoxy matrix polymer. The amount oforganoclay contained influence to mechanical properties of nanocomposite materials. The addition of10.5 wt.% organoclay improved the tensile modulus about 185%. These decreases in the strength maybe attributed to the fact that agglomerates and voids were formed. The compression test result showedthat the addition of 3 .1 wt.% organoclay demonstrated a I 02% increase in compression strength and a93% increase in load maximum compare to epoxy resin. An addition of 7.3 wt. % organoclaydemonstrated an increase of modulus of the epoxy resin by 93%. Meanwhile, the addition of 10.5 wt.% organoclay caused the decreasing in yield compression up to 31 %.References
[l] Adam S. Zerda, Alan J. Lesser, 2001,
"Intercalated Clay Nanocomposite:
Morphology, Mechanics, and Fracture
Behavior", Journal of Polymer Science
Part B: Polymer Physics, Vol. 37, p 1137-
(2] Akane Okada and Arimitsu Usuki, 2006,
"Twenty years of polymer-clay
nanocornposite", Macromolecular
Materials and Engineering, Vol. 291, p
-1476.
(3] Yasmin, J.J. Luo, J.L. Abot, I.M. Daniel, 2006,
"Mechanical and thermal behavior of
clay/epoxy nanocomposite", Composites
Science and Technology, Vol. 66, p 2415-
Bernd Wetzel, et all, 2006, "Epoxy
nanocomposite-fracture and toughening
mechanisms", Engineering Fracture
Mechanics, Vol. 73, p 2375-2398.
(5] B Qi, Q.X. Zhang, M. Bannister, Y.W. Mai,
, "Investigation of the mechanical
properties of DGEBA-based epoxy resin
with nanoclay additive", Composite
Structure, Vol. 75, p 514-519.
Cigdem Basara, Ulku Yilmazer, Goknur Bayram,
, "Synthesis and characterization of
epoxy base nanocomposites", Journal
Applied Polymer Science, Vol. 98, p 1081-
Farzana Hussain, Jihua Chen, Mehdi Hojjati,
, "Epoxy-silicate nanocomposite:
Cure monitoring and characterization",
Materials Science and Enggineering A,
Vol. 445-446, p 467-476.
F. L. Matthews, R. D. Rawlings, 1995,
Composite Materials: Engineering and
Science, I st ed, Chapman & Hall, p 1- 72.
Hiroaki Miyagawa, Kit H. Foo, Isaac M. Daniel,
Lawrence T. Drzal, 2005, "Mechanical
properties and failure surface morphology
of amine-cured epoxy/clay
nanocomposite", Journal of Applied
Polymer Science, Vol. 96, p 281-287.
[lO]J.W. Cho and D.R. Paul, 2001, "Nylon-6
nanocomposite by met compounding",
Polymer, Vol. 42, p 1083-1094.
[l l]Michael, C.Y. Niu, 2000, Composite airframe
structure:practical design information and
data, 3rd ed, Hongkong Conmilit Press Ltd.,
p 1-123.
[ 12]S. T. Peters, 1998, Handbook of Composites, 2°ct
ed, Chapman & Hall.
Downloads
Published
Issue
Section
License
Copyright (c) 2018 Haipan Salam
This work is licensed under a Creative Commons Attribution 4.0 International License.
