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"[Pada penelitian ini, serat ijuk dihancurkan dan diayak ukuran 40 # setelah itu serat ijuk diberi perlakuan kimia dengan NaOH 2 % selama 1 jam, KMnO4 0,1 N selama 15 menit, dan NaClO 5 % selama 5 jam dengan tujuan mendapatkan selulosa kristalin. Setelah itu dilakukan proses pencampuran kering (hotmelt mixing) antara polipropilen dengan serat ijuk hasil perlakuan kimia dengan 7,5 % volum serat ijuk terhadap polipropilen dengan variabel temperatur 160°C, 165°C, dan 170°C dan variabel waktu pencampuran 15 menit dan 20 menit. Setelah itu dilakukan pengujian uji FTIR buat serat, sedangan buat komposit adalah uji tarik, uji STA, uji XRD, dan uji FE-SEM hal ini dilakukan untuk mendapatkan sifat kristalinitas dan mekanik dari komposit polipropilen ini. Hasil penelitian menunjukkan bahwa serat ijuk hasil perlakuaan lebih kristalin dari pada serat ijuk tanpa perlakukan, polipropilen dengan serat ijuk hasil perlakuaan kimia cukup kompatibel terhadap polipropilen, dari penelitian didapatkan sifat kristalinitas terbaik pada variabel 165°C selama 20 menit. Dan yang memiliki sifat kekuatan tarik paling baik adalah variabel 170°C selama 20 menit, sedangkan yang memiliki % elongasi paling baik adalah dengan variabel 160°C 20 menit.......In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes.;In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes.;In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes.;In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes.;In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes., In this work, palm fiber crushed and sieved size 40 # after the palm fiber chemically treated with 2% NaOH for 1 hour, 0.1 N KMnO4 for 15 minutes, and 5% NaClO for 5 hours in order to obtain crystalline cellulose. Once that is done the dry mixing (hotmelt mixing) between polypropylene and palm fiber chemical treatment results with 7.5% volume of the palm fiber and polypropylene with a variable temperature of 160°C, 165°C and 170°C and a variable time mixing 15 minutes and 20 minutes. After it was examined FTIR test for fiber, while the composite is made tensile test, STA test, XRD test and FE-SEM test this is done to obtain crystallinity and mechanical properties of polypropylene composites this. The results show that fiber perlakuaan results more crystalline fibers than untreated palm fiber, polypropylene and palm fiber chemistry results treatment compatible enough to polypropylene, crystallinity of the research showed the best properties on the variable 165 ° C for 20 minutes. And who has the most excellent tensile strength properties are variable 170 ° C for 20 minutes, while the best of % elongation is at a variable 160 ° C 20 minutes.]"

"Serat ijuk semakin menarik untuk diteliti sebagai bahan pengisi polimer. Dengan memodifikasi permukaan serat ijuk, didapatkan selulosa mikrofibril (MFC) yang berbasis ijuk untuk kemudian dicampurkan dengan polimer membentuk produk berbasis MFC ijuk. Namun morfologi, kompatibilitas, stabilitas termal MFC berbasis ijuk terhadap sifat produk polimer perlu dilakukan penelitian lebih lanjut dan dibandingkan karakteristiknya dengan produk berbasis bubble glass.Dalam penelitian ini telah dilakukan proses pencampuran lelehan panas dengan menggunakan mesin rheomix yaitu antara MFC berbasis ijuk dan bubble glass dengan polipropilena jenis homopolimer. Kandungan MFC berbasis ijuk dan bubble glass dalam campuran adalah 0,3; 0,6; dan 1 wt% dalam tiap 50 gram homopolimer polipropilena dengan variasi temperatur 160, 175, dan 190°C selama 15 menit.Dari hasil penelitian diketahui bahwa dengan penambahan MFC berbasis ijuk dan bubble glass dapat menurunkan temperatur leleh (Tm) dan menaikan temperatur dekomposisi (Td), kecuali Td produk berbasis bubble glass akibat karakteristik bubble glass yang amorf. Tm maksimum produk berbasis MFC ijuk dan bubble glass didapatkan pada komposisi yang sama yaitu 0,3 wt% masing-masing sebesar 160,68°C dan 161,29°C. Sedangkan pada Tm maksimum produk berbasis MFC ijuk dan bubble glass masing-masing didapatkan pada temperatur pencampuran 190°C sebesar 160,66°C dan 175°C sebesar 162,52°C. Untuk Td maksimum produk berbasis MFC ijuk dan bubble glass didapatkan pada komposisi 1 wt% sebesar 256,08°C dan 0,3 wt% sebesar 296,07°C. Sedangkan pada Td maksimum produk berbasis MFC ijuk dan bubble glass masing-masing didapatkan pada temperatur pencampuran 175°C sebesar 270,72°C dan 160°C sebesar 290,12°C.......Ijuk fiber more interesting to study as a filler material for polymer. By modyfiying the surface fibers, microfibrilscellulose (MFC) ijuk-based obtained and then mixed it with polymer to form MFC ijuk-based products. However morphology, compatibility, thermal stability of MFC ijuk-based towards polymer product need further research and compared its characteristic with glass bubblebased products.In this research has been carried out the process of hot-melt mixing using a rheomix machine that is between MFC ijuk-based and glass bubble with homopolymer type of polypropylene. The content of MFC ijuk-based and glass bubble in the mixture is 0.3; 0.6; and 1%wt in each 50 grams of homopolymer polypropylene with a temperature variation of 160, 175, and 190°C for 15 minutes.The result showed that with the addition of MFC ijuk-based and glass bubblebased can lower the melting temperature (Tm) and raise the decomposition temperature (Td), except Td of glass bubble-based products due to the amorphous characteristics of glass bubble. The maximum Tm of MFC ijuk-based and glass bubble products obtained in the same composition that is 0,3%wt at 160.68°C and 161.29°C, respectively. In other side, the maximum Tm MFC ijuk-based and glass bubble-based obtained at mixing temperature of 190°C at 160.66°C and 175°C at 162.52°C, respectively. For maximum Td of MFC ijuk-based and glass bubble-based products obtained on the composition of 1%wt at 256.08°C and 0.3%wt at 296.07°C. In other side, the maximum Td of MFC ijuk-based and glass bubble product obtained at mixing temperature of 175°C at 270.72°C and 160°C at 290.12°C, respectively."

"ABSTRAKPenelitian ini fokus pada peningkatan sifat mekanis Polipropilena impak kopolimer (PP) dengan menggunakan serat ijuk yang telah dimodifikasi. Modifikasi serat ijuk dilakukan dengan menggunakan proses alkalinisasi dan pemutihan. Proses tersebut bertujuan untuk meningkatkan kristalinitas dan kompatibilitas serat ijuk terhadap matriks PP. Pembuatan komposit PP-ijuk dilakukan menggunakan metode pencampuran lelehan panas untuk selanjutnya di cetak sesuai spesifikasi sampel uji sifat mekanis. Proses pencampuran dilakukan selama 15 menit dan dipelajari dua variabel utama, yakni variasi kadar serat ijuk (1%, 3%, 5%) dan variasi temperatur pencampuran (160⁰C dan 165⁰C). Komposit yang terbentuk selanjutnya dilakukan pengujian STA dan UTM. Dari hasil percobaan dapat disimpulkan bahwa peningkatan sifat mekanis yang optimal didapatkan pada percobaan menggunakan serat ijuk 1% dan suhu pencampuran 160⁰C. pada sampel tersebut teramati penambahan nilai kuat tarik hampir mencapai 1 Mpa. Hasil percobaan mengindikasikan bahwa serat ijuk hasil modifikasi dapat digunakan sebagai filler untuk meningkatkan sifat mekanis PP. Kondisi utama yang paling mempengaruhi peran positif serat ijuk adalah distribusi dan dispersi.

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ABSTRACTThis research focused on the employment of modificated ?ijuk? fibers as fillers to improve the mechanical properties of polypropylene impact copolymer (PP). Ijuk fibers are processed through alkali treatment and bleaching. Those processes are intended to improve the crystalinity and compatibility of ?ijuk? fibers to matrix PP. Afterwards, PP-ijuk composite is made by using rheomixing and subsequently casted in satisfactory to meet the requirements as standard sample for tensile strength testing. Rheomixing was conducted for 15 minutes in different concentration of ?ijuk? fibers (1%, 3%, 5%) and temperature (160⁰C dan 165⁰C). STA and UTM were used to observe the properties of the composite. From the results, can be concluded that the optimal condition to improve the mechanical properties of PP is obtained in the condition of 1% ?ijuk? fibers and 160⁰C mixing temperature. These condition were successfully improved the tensile strength of PP by 1 Mpa. The experiments indicated that modificated ?ijuk? fibers can be used as filler to increase the mechanical properties of PP. Distribution and dispertion were attributed as the main factors which influenced the processes."