Pengaruh Aging pada Film Lateks Karet Alam Berpengisi Nanokristalin Selulosa dan Penyerasi Alkanolamida
ABSTRAK
Ampas tebu merupakan limbah lignoselulosa yang sangat potensial dan
mengandung selulosa. Selulosa dalam ampas tebu dapat dijadikan nanokristalin
selulosa melalui proses hidrolisis dengan asam. Penelitian ini membahas tentang
ketahanan film lateks karet alam berpengisi nanokristalin selulosa dan penyerasi
alkanolamida terhadap perlakuan aging. Telah dilakukan sintesis pengisi nanokristalin
selulosa dan penyerasi alkanolamida serta pengujian sifat mekanik film lateks karet
alam setelah perlakuan aging meliputi kekuatan tarik, pemanjangan saat putus,
modulus tarik. Pembuatan film lateks karet alam melalui proses pencelupan
berkoagulan. Penelitian ini dimulai dengan proses pra-vulkanisasi lateks karet alam
pada suhu 70 oC dan diikuti dengan proses vulkanisasi pada suhu 100 oC selama 20
menit. Selajutnya dilakukan perlakuan aging pada suhu 70 oC selama 24 jam. Hasil
karakteristik TEM dan XRD pengisi nanokristalin selulosa menunjukkan nanokristalin
selulosa memiliki diameter 40-160 nm dengan kristalinitas 92,33%. Hasil pengujian
sifat-sifat mekanik menunjukkan bahwa film lateks karet alam berpengisi
nanokristalin selulosa dan penyerasi alkanolamida memiliki ketahanan yang sangat
baik terhadap perlakuan aging. Hasil uji mekanik didukung oleh analisa scanning
electron microscopy (SEM) yang menujukkan film lateks karet alam berpengisi
nanokristalin selulosa dan penyerasi alkanolamida setelah perlakuan aging memiliki
permukaan patahan dengan crack yang lebih sedikit dibandingkan film lateks karet
alam tanpa pengisi nanokristalin selulosa dan penyerasi alkanolamida.
Kata kunci : lateks karet alam, nanokristalin selulosa, ampas tebu, alkanolamida, aging
vi
Universitas Sumatera Utara
ABSTRACT
Sugarcane bagasse is potential lignosellulosic waste and contains cellulose.
Cellulose from sugarcane bagasse can be derived into nanocrystalline cellulose by acid
hydrolysis process. This research studied about the ressistance of natural rubber latex
film filled with nanocrystalline cellulose and alkanolamide compatibilizer toward
aging treatment. Synthesis of nanocrystalline cellulose and alkanolamide had been
done, also mechanical testing after aging treatment such as tensile strength, elongation
at break and tensile modulus. Natural rubber latex film was produced by using
coagulant dipping method. This research was started from natural rubber latex prevulcanization at 70 oC and followed with vulcanization process at 100 oC for 20
minutes. Then, aging treatment was done at temperature 70 oC for 24 hour. The result
of TEM and XRD characteristic of nanocrystalline cellulose show diameter of
nanocrystalline celllulose was 40-160 nm with crystallinity 92,33%. The result of
mechanical properties show natural rubber latex film filled with nanocrystalline
cellulose and alkanolamide have a good ressistance of aging. The result of mechanical
properties were supported by Scanning Electron Microscopy (SEM) which showed
natural rubber latex film filled with nanocrystalline cellulose and alkanolamide
compatibilizer after aging treatment have less crack on fracture surface compared to
natural rubber latex film without nanocrystalline cellulose filler and alkanolamide
compatibilizer.
Key words : natural rubber latex, nanocrystalline cellulose, sugarcane bagasse,
alkanolamide, aging.
vii
Universitas Sumatera Utara
Ampas tebu merupakan limbah lignoselulosa yang sangat potensial dan
mengandung selulosa. Selulosa dalam ampas tebu dapat dijadikan nanokristalin
selulosa melalui proses hidrolisis dengan asam. Penelitian ini membahas tentang
ketahanan film lateks karet alam berpengisi nanokristalin selulosa dan penyerasi
alkanolamida terhadap perlakuan aging. Telah dilakukan sintesis pengisi nanokristalin
selulosa dan penyerasi alkanolamida serta pengujian sifat mekanik film lateks karet
alam setelah perlakuan aging meliputi kekuatan tarik, pemanjangan saat putus,
modulus tarik. Pembuatan film lateks karet alam melalui proses pencelupan
berkoagulan. Penelitian ini dimulai dengan proses pra-vulkanisasi lateks karet alam
pada suhu 70 oC dan diikuti dengan proses vulkanisasi pada suhu 100 oC selama 20
menit. Selajutnya dilakukan perlakuan aging pada suhu 70 oC selama 24 jam. Hasil
karakteristik TEM dan XRD pengisi nanokristalin selulosa menunjukkan nanokristalin
selulosa memiliki diameter 40-160 nm dengan kristalinitas 92,33%. Hasil pengujian
sifat-sifat mekanik menunjukkan bahwa film lateks karet alam berpengisi
nanokristalin selulosa dan penyerasi alkanolamida memiliki ketahanan yang sangat
baik terhadap perlakuan aging. Hasil uji mekanik didukung oleh analisa scanning
electron microscopy (SEM) yang menujukkan film lateks karet alam berpengisi
nanokristalin selulosa dan penyerasi alkanolamida setelah perlakuan aging memiliki
permukaan patahan dengan crack yang lebih sedikit dibandingkan film lateks karet
alam tanpa pengisi nanokristalin selulosa dan penyerasi alkanolamida.
Kata kunci : lateks karet alam, nanokristalin selulosa, ampas tebu, alkanolamida, aging
vi
Universitas Sumatera Utara
ABSTRACT
Sugarcane bagasse is potential lignosellulosic waste and contains cellulose.
Cellulose from sugarcane bagasse can be derived into nanocrystalline cellulose by acid
hydrolysis process. This research studied about the ressistance of natural rubber latex
film filled with nanocrystalline cellulose and alkanolamide compatibilizer toward
aging treatment. Synthesis of nanocrystalline cellulose and alkanolamide had been
done, also mechanical testing after aging treatment such as tensile strength, elongation
at break and tensile modulus. Natural rubber latex film was produced by using
coagulant dipping method. This research was started from natural rubber latex prevulcanization at 70 oC and followed with vulcanization process at 100 oC for 20
minutes. Then, aging treatment was done at temperature 70 oC for 24 hour. The result
of TEM and XRD characteristic of nanocrystalline cellulose show diameter of
nanocrystalline celllulose was 40-160 nm with crystallinity 92,33%. The result of
mechanical properties show natural rubber latex film filled with nanocrystalline
cellulose and alkanolamide have a good ressistance of aging. The result of mechanical
properties were supported by Scanning Electron Microscopy (SEM) which showed
natural rubber latex film filled with nanocrystalline cellulose and alkanolamide
compatibilizer after aging treatment have less crack on fracture surface compared to
natural rubber latex film without nanocrystalline cellulose filler and alkanolamide
compatibilizer.
Key words : natural rubber latex, nanocrystalline cellulose, sugarcane bagasse,
alkanolamide, aging.
vii
Universitas Sumatera Utara