PREPARASI BENTONIT ALAM MENJADI NANO PARTIKEL SEBAGAI FILLER PADA TERMOPLASTIK HDPE
Abstract
The purpose of this study is the manufacture of natural bentonite
into nano particles and is used as a filer on thermoplastic high-density
polyethylene ( HDPE ) . The method used in the manufacture of nano-
particles of bentonite are two ways ; The first synthesis method using
surfactant cetyl trimethyl ammonium bromide ( CTAB ) and the second
way in ballmill for 10 hours . Characterization of the particle size
analyzer ( PSA ) , morphological analysis with scanning electron
microscope ( SEM ) and analysis of the structure by X - ray diffraction (
XRD ) was performed . Nano particles with variation of composition of
natural bentonite ( 2 , 4 , 6 , 8 , 10 % w t) blends with HDPE and
compatibilizer PE - g- MA on the appliance 's internal mixer at a
temperature of 150 C and laboplatomil rate of 60 rpm for 10 minute.Berdasarkan PSA analysis and X - ray , natural bentonite having an average size of 75 nm for synthesis with CTAB , and 97.5 nm for the ball mill . from the results of XRD analysis of minerals crystoballite (SiO2 ) and phase annite ( Al3.448Fe3K0.99Na 0.01O12Si 2.552 ) . In testing the mechanical properties of the resulting increase in tensile strength and breaking up the composition perpajangan 2 to 6 % and a decline in the composition of 8 % . The results of SEM analysis showed that homogeneous mixing of ingredients and the bentonite particle agglomeration on the composition of 10 % wt.
Keywords
Full Text:
PDFReferences
Adel Fisli ,Mujamilah dan Grace Tj
Sulungbudi (2009) , Sintesis dan
karakterisasi Nanokomposit
Oksida Besi-Bentonit ,Jurnal sains
Materi Indonesia Vol 10 No 2 ,164169
.
Bukit, N., (2011), Pengolahan Zeolit
Alam sebagai bahan pengisi nano
komposit polipropilena dan karet
alam
SIR-20
dengan
kompatibeliser anhidrida mateatgrafted-polipropilena,
Disertasi
USU, Medan
Bukit, N., (2012) Mechanical And
Thermal
Properties Of
Polypropylene Reinforced By
Calcined And Uncalcined Zeolite
.Makara, Technology, Vol. 16, No.
, November 2012: 121-128
Bukit, N., Frida, E, and Harahap.M.H,
(2013) Preparation Natural
Bentonite In Nano Particle
Material As Filler Nanocomposite
High Density Poliethylene
(HDPE) Journal of Chemistry and
Material Research.3.13, 10-20
Bukit N ,Ginting,E.M ,Harahap .M
Hutagalung .C (2014) ,
Pengolahan Bentonit Alam
Menjadi Nano Partikel Bentonit
Sebagai Filer , Prosiding Seminar
Nasional Kimia Medan , Mei 2014 ,
hal 298-306
Fouad, H., Elleithy, R., Al-Zahrani, S.
M., Ali, M. A.,
(2011).
Characterization and processing
of
High
Density
Polyethylene/carbon
nano-
composites, Materials and Design,
: 1974–1980
Kohls,J.L, and Beaucage,(2002)
, Rubber , Cur
OP.Solid St Mat Sci ,6:183-194.
Leblance,J,R.(2002).
Rubber-filler
Interaction and Rheology
properties in Filled Coumpaund,
Prog .Polym . Sci 27:627-687
Sinto Jacob, Suma K.K. Sona
Narayanan,
Abhilash G, Jude Martin Mendez
K.E.George,(2010),” International
Conference on Advances in
Polymer Technology, Feb. 26-27,
, India, Page No. 223.
Tserki . V. Patzinos .P Da Panayiotou
,C (2006) ,”Novel Biodegradable
Composites based on Treated
Lignacellulosic wasre Flour as
Filler . Part II Development of
Biodegradable Composite Using
Treated and Compatiblized
waste flour”
. Composit
Aplpled
Scince
and
Manufacturing . 37: 1231-1238 .
Ma, J.S., Qi, Z.N., and Hu, Y.L. (2001).
“Synthesis and Characterization
of
Polypropylene/ Clay
Nanocomposites”. Journal of
Applied Polymer Science. 82:
-3617
Zebarjad, S. M, Sajjadi, S. A., Tahani,
M., and Lazzeri, A. (2006). A
study on ther mal behaviour of
HDPE/CaCO3 nanocomposites,
Journal of Achievements in
Materials and Manuf acturing
Engineering 17 Issue 1-2,173-176
Z. A. Kusmono W. S. Mohd Ishak, T. ,
Chow R. Takeichi,2008 “
Enhancement of properties fPA6/PP nanocomposites via
organic modification and
compatibilization 1M “, J.
Polym. Lett. 2/9 pp.655.
Article Metrics
Abstract view : 193 timesPDF - 654 times
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.