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Sains Malaysiana 40(9)(2011): 1029–1035
Penyediaan dan Pencirian Komposit Upr/Lnr/Gentian Kaca Terawat Menggunakan Resin Poliester Tak
Tepu daripada Bahan Buangan PET
(Preparation and
Characterization of UPR/LNR/Glass Fiber
Composite by using Unsaturated
Polyester Resin (PET) from PET Wastes)
Siti
Farhana Hisham, Ishak Ahmad* & Rusli Daik
Pusat
Pengajian Sains Kimia dan Teknologi Makanan, Fakulti Sains dan Teknologi
Universiti
Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia
Anita
Ramli
Bahagian
Kejuruteraan Kimia , Universiti Teknologi PETRONAS, Bandar Seri Iskandar,
31750
Tronoh, Perak, Malaysia
Received:
16 June 2010 / Accepted: 23 December 2010
ABSTRAK
Komposit UPR/LNR/gentian
kaca telah disediakan dengan menggunakan resin poliester tak tepu daripada
hasil pengitaran semula bahan buangan PET. Kajian dimulai dengan
pengitaran semula botol minuman PET melalui proses glikolisis
dan hasilnya ditindakbalaskan dengan maleik anhidrida untuk mendapatkan resin
poliester tak tepu. Kajian diteruskan dengan penyediaan adunan resin poliester
tak tepu (UPR) dengan cecair getah asli (LNR)
iaitu komposisi penambahan LNR ke dalam UPR telah
diubah dari 0-7.5% (wt). Komposisi UPR/LNR dengan sifat mekanik
terbaik dipilih sebagai matrik untuk penyediaan komposit berpenguat gentian
kaca. Rawatan silana ke atas gentian kaca turut dilakukan dengan menggunakan
(3-Aminopropil)triethoxysilane. Hasil daripada kajian mendapati adunan UPR/LNR dengan penambahan 2.5% LNR mempunyai sifat mekanik dan
morfologi terbaik dengan partikel-partikel getah yang bersaiz kecil dapat
tersebar dengan sekata dalam UPR. Kajian juga menunjukkan
berlakunya peningkatkan dalam nilai tegasan, modulus regangan dan kekuatan hentaman
bagi komposit UPR/LNR/gentian kaca terawat berbanding dengan penggunaan
gentian tanpa rawatan.
Kata kunci: Cecair getah
asli (LNR); gentian kaca; kitar semula PET;
rawatan silana; resin poliester tak tepu (UPR)
ABSTRACT
UPR/LNR/glass
fibre composite had been prepared by using unsaturated polyester resin (UPR)
based from recycled PET product. PET waste
was recycled by glycolisis process and the glycolised product was then reacted
with maleic anhydride to produce unsaturated polyester resin. The preparation
of UPR/LNR blends were conducted by varying the amount of LNR addition
to the resin ranging from 0-7.5% (wt). The composition of UPR/LNR blend
with good mechanical properties had been selected as a matrix of the glass
fiber reinforced composite. Glass fibre was also treated by
(3-Aminopropil)triethoxysilane as a coupling agent. From the result, the
addition of 2.5% LNR in UPR had
showed the optimum mechanical and morphological properties where the elastomer
particels were well dispersed in the matrix with smaller size. The silane
treatment on the glass fiber increased the tensile and impact strength values
of the UPR/LNR/GF composite compared to untreated fiber
reinforcement.
Keywords: Glass fiber; liquid natural rubber (LNR);
recycled PET; silane treatment; unsaturated polyester resin (UPR)
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*Corresponding author; e-mail: gading@ukm.my
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