Hasil Pencarian  ::  Simpan CSV :: Kembali

"Dalam penelitian ini telah dilakukan sintesis poli(metil metakrilat)/PMMA dengan metode polimerisasi radikal bebas terkontrol yaitu metode Atom Transfer Radical Polymerization (ATRP). Variasi yang dilakukan yaitu variasi waktu, suhu, katalis, ligan, dan inisiator untuk memperoleh kondisi optimum dengan persen konversi yang tinggi dan distribusi berat molekul sempit atau indeks polidispersitas yang mendekati 1. Dari hasil penelitian diperoleh semakin tinggi suhu dan semakin lama waktu maka semakin besar pula persen konversi yang dihasilkan. Dari variasi komposisi yang dilakukan, komposisi optimum sintesis poli(metil metakrilat) yang diperoleh yaitu dengan perbandingan monomer: katalis : ligan : inisiator (100 : 2 : 4 : 1) dan dihasilkan persen konversi sebanyak 64,6%. Terbentuknya poli(metil metakrilat) ditunjukkan dengan karakterisasi menggunakan FTIR yaitu dengan hilangnya puncak C=C pada bilangan gelombang 1636 cm-1. Hasil polimerisasi dengan komposisi optimum dikarakterisasi menggunakan GPC untuk mengetahui distribusi berat molekul dan dikarakterisasi menggunakan DSC untuk mengetahui suhu transisi gelas (Tg). Tg PMMA yang diperoleh yaitu 80,7oC. Indeks polidispersitas PMMA yang diperoleh dari komposisi optimum yaitu 2,6 dengan rata-rata berat-berat molekul (Mw) 9026 g/mol.

---

In this research the synthesis of poly methyl methacrylate PMMA has been done by the method of controlled radical polymerization Atom Transfer Radical Polymerization ATRP Variations that has been done in this study were variation of time variation of temperature variation of catalyst ligand and initiator concentration to get the optimum condition with the high conversion and the narrow molecular weight distribution or polidispersity index close to one The conclusion resulted from this research is that the higher temperature and time the higher conversion obtained From variations of composition that has be done the optimum composition of synthesis poly methyl methacrylate is obtained when the comparison of monomer catalyst ligand initiator is 100 2 4 1 produced conversion 64 6 The formation of poly methyl methacrylate is shown by the result of characterization with FTIR peak of C C disappeared in wavenumber 1636 cm 1 The result of polymerization with optimum composition charactherized by Gel Permeation Chromatography GPC to know the molecule weight distribution and characterized by Differential Scanning Calorimetry DSC to know the temperature of glass transition Tg Tg PMMA is known 80 7oC Polidispersity index PMMA with optimum composition in this research is 2 6 with weight average molecular weight Mw is 9026 g mol."

"Pada penelitian ini telah dilakukan sintesis polistirena melalui polimerisasi radikal terkontrol menggunakan metode Atom Transfer Radical Polymerization (ATRP) serta mempelajari pengaruh variasi waktu reaksi, variasi konsentrasi ligan, katalis, dan inisiator terhadap persen konversi, distribusi berat molekul, dan indeks polidispersitas. Variasi kondisi reaksi dilakukan untuk mendapatkan komposisi optimum sintesis polistirena dengan persen konversi tinggi, distribusi berat molekul sempit, dan indeks polidispersitas kecil (≈1). Polistirena telah berhasil disintesis dengan metode ATRP menggunakan ligan PMDETA, katalis CuBr, inisiator EBiB, dan pelarut sikloheksanon. Parameter keberhasilan dilihat dari persen konversi dan berbagai hasil karakterisasi seperti FTIR, GPC, dan DSC. Komposisi optimum sintesis polistirena yaitu pada konsentrasi ligan 4%, katalis 2%, dan inisiator 4% terhadap 100% mol stirena. Persen konversi polistirena pada komposisi optimum mencapai 91,4% dan diperoleh nilai indeks polidispersitas sebesar 1,17, rata-rata berat molekul 3.526 g/mol, dan suhu transisi gelas 72,42°C.

---

This research has been conducted synthesis of polystyrene through controlled radical polymerization by using Atom Transfer Radical Polymerization (ATRP) method and also studied about the influence of variation of time reactions, variation of ligand, catalyst, and initiator concentrations toward conversion percentage, molecular weight distribution, and polydispersity index. The condition of variation reactions has been done to obtain the optimum composition of reaction thus it got polystyrene with higher conversion percentage, a narrow range of molecular weight distribution, and small index of polydispersity (≈1). Polystyrene has been successfully synthesized by ATRP method using PMDETA as ligand, CuBr as catalyst, EBiB as initiator, and cyclohexanone as solvent. The parameter of successful can be seen from the percentage of conversion and various results of characterization such as FTIR, GPC, and DSC. The optimum composition to synthesis of polystyrene where the concentration of ligand is 4%, catalyst is 2%, and initiator is 4% against 100% mol of styrene. The conversion percentage of polystyrene at the optimum composition reached 91.4% and obtained the result of polydispersity index by 1.17, the average molecular weight is 3.526 g/mol, and the glass transition temperature is 72.42°C."

"Polimerisasi suspensi merupakan salah satu teknik polimerisasi dispersi di mana monomer terdispersi dalam air sebagai fasa kontinyunya. Pada penelitian ini dilakukan sintesis kopolimer poli[stirena-ko-(butil akrilat)] dengan teknik polimerisasi suspensi melalui metode Atom Transfer Radical Polymerization (ATRP). Variasi konsentrasi stabilizer poli(vinil alkohol) (PVA), inisiator etil α-bromoisobutirat (EBIB), dan komposisi monomer dilakukan untuk mendapatkan kondisi optimum. Kondisi optimum diperoleh pada (i) konsentrasi PVA 5% dengan viskositas 1550 mPa.s, (ii) perbandingan massa total monomer dan inisiator EBIB sebesar 211:10 dengan ukuran partikel 1,832 µm serta distribusi ukuran partikel yang monomodal, dan (iii) komposisi monomer stirena dan butil akrilat sebesar 50:50 (wt/wt%) dengan temperatur transisi gelas sebesar 12,45oC. Parameter keberhasilan terjadinya kopolimerisasi dibuktikan oleh karakterisasi FTIR, DSC, dan GPC.

---

Suspension Polymerization is one of dispersion polymerization technique which monomers are dispersed in water as continuous phase. In this study, synthesis of copolymers poly[styrene-co-(butyl acrylate)] by using suspension polymerization technique via Atom Transfer Radical Polymerization (ATRP) was performed. Concentration of stabilizer poly(vinyl alcohol) (PVA), initiator ethyl-α-bromoisobutyrate (EBIB), and monomers composition were varied to obtain The optimum conditions. The optimum conditions were obtained at (i) PVA concentration of 5% with viscosity of 1550 mPa.s, (ii) total mass ratio of monomer and initiator EBIB of 211:10 with particle size of 1,832 µm and monomodal particle size distribution, and (iii) composition between monomers styrene and butyl acrylate of 50:50 (wt/wt%) with transition glass temperature of 12,45oC. The success of the copolymerization was evidenced by FTIR, DSC, and GPC characterization."

"Dalam penelitian ini dilakukan sintesis polistirena-blok-poli(etil akrilat) dengan metode atom transfer radical polymerization (ATRP) untuk mempelajari pengaruh variasi konsentrasi inisiator terhadap berat molekul dan indeks polidispersitas (PDI) makroinisiator, serta mempelajari pengaruh variasi konsentrasi monomer terhadap sifat termal kopolimer blok. Dari hasil penelitian diperoleh semakin tinggi konsentrasi inisiator, berat molekul dan nilai indeks polidipersitas yang didapat semakin kecil. Komposisi optimum untuk sintesis makroinisiator polistirena didapat saat konsentrasi inisiator 1,6%, dengan rata-rata berat molekul sebesar 3613 g/mol dan diperoleh nilai indeks polidispersitas sebesar 1,07. Terbentuknya polistirena-blok-poli(etil akrilat) ditunjukkan oleh hasil karakterisasi dengan nuclear magnetic resonance (1H-NMR). Munculnya puncak kuartet pada 4,2 ppm menunjukkan serapan dari metil ester poli(etil akrilat). Hasil karakterisasi dengan gel permeation chromatography (GPC) juga menunjukkan bertambahnya berat molekul menjadi 4098 g/mol. Dengan demikian polistirena-blok-poli(etil akrilat) telah berhasil disintesis.

---

Within this research, polystyrene-block-poly(ethyl acrylate) synthesis is done by using the atom transfer radical polymerization (ATRP) method to study the effects of various initiator concentration towards the molecular weight and polydispersity index (PDI) macroinisiator, also to study the effects of various monomer concentration towards the thermal properties of block copolymers. The conclusion resulted from this research is that the higher the concentration initiator, the smaller the molecular weight and PDI number obtained. The optimum composition to synthesize polystyrene macroinisiator is obtained when the initiator concentration is 1,6% with the average molecular weight of 3613 g/mol and the polydispersity index number 1,07. The formation of polystyrene-block-poly(ethyl acrylate) is shown by the result of characterization with nuclear magnetic resonance (1H-NMR). The emergence of maximum quartet at 4,2 ppm indicates the uptake from methyl esters of poly(ethyl acrylate). The result of characterization with permeation chromatography (GPC) also shows the increase of molecular weight, becoming 4098 g/mol. Therefore, polystyrene-block-poly(ethyl acrylate) has successfully been synthesized."

"Pada penelitian ini dilakukan sintesis kopolimer pH-sensitif poli(N-vinil pirolidon)-blok-poli(N-hidroksimetil akrilamida) menggunakan metode atom transfer radical polymerization (ATRP) dengan memvariasikan komposisi monomer N-hidroksimetil akrilamida untuk melihat pengaruhnya terhadap sensitivitas kopolimer blok tersebut pada berbagai pH. Untuk melihat gugus fungsi yang terdapat pada kopolimer digunakan FT-IR, sedangkan struktur kopolimer dikarakterisasi menggunakan 1H-NMR. Kemudian, karakterisasi menggunakan particle size analyzer dilakukan untuk melihat sensitivitas dari kopolimer dengan melihat perubahan ukuran partikel kopolimer pada berbagai pH. Dalam penelitian ini, kopolimer poli(N-vinil pirolidon)-blok-poli(N-hidroksimetil akrilamida) mengalami perubahan ukuran partikel pada berbagai pH. Pada pH asam ukuran partikel kopolimer akan lebih besar dibandingkan pada pH basa. Selain itu, semakin banyak komposisi monomer N-hidroksimetil akrilamida maka ukuran partikel akan lebih besar.

---

In this reseach, the synthesis of pH-sensitive poly(N-vinyl pyrrolidone)-block-poly(N-hydroxymethyl acrylamide) was carried out using atom transfer radical polymerization (ATRP) by varying the monomer composition of N-hydroxymethyl acrylamide to observe the effect of monomer composition on copolymer sensitivity at various pH. Functional groups in copolymers were characterized using FT-IR, and the structures of copolymers were investigated with ¹H-NMR. In order to observe copolymer sensitivity to pH, characterization using particle size analyzer was performed by studying the changes in particle sizes of copolymers at various pH. In this research, particle sizes of poly(N-vinyl pyrrolidone)-block-poly(N-hydroxymethyl acrylamide) changes in various pH. At low pH, the particle sizes of copolymers became much bigger than at high pH. Besides that, particle sizes increased along with the increasing monomer composition of N-hydroxymethyl acrylamide."

"Dalam penelitian ini dilakukan sintesis polistirena-ko-poli(etil akrilat) dengan metode Atomic Transfer Radical Polymerization (ATRP) untuk mempelajari pengaruh konsentrasi stabilisator dan inisiator terhadap solid content dan viskositas, serta mempelajari pengaruh variasi komposisi monomer terhadap temperatur transisi gelas (Tg). Dari hasil penelitian didapatkan bahwa semakin tinggi konsentrasi stabilisator dan inisiator maka solid content dan viskositas akan semakin tinggi, dan pada variasi komposisi monomer tidak memberikan kecenderungan pada temperatur transisi gelas yang dihasilkan. Terbentuknya polistirena-ko-poli(etil akrilat) ditunjukkan oleh hasil karakterisasi dengan Fourier Transform Infra Red dan Differential Scanning Calorimetry yang terlampir dalam penelitian ini dan memiliki hasil tidak terbentuk homopolimer dari masing-masing monomer.

---

In this research, the synthesis of polystyrene-co-poly(ethyl acrylate) by the method of Atomic Transfer Radical Polymerization (ATRP) has been done to study the effect of the concentration of stabilizers and initiators on the solid content and viscosity of them. Then, this experiment also studied the effect of variations of monomers composition on the glass transition temperature (Tg) of polystyrene-co-poly(ethyl acrylate). The result showed that the higher concentration of stabilizers and initiators were, the higher the solid content and viscosity of the copolymer was obtained. In addition, the monomers composition did not affect the glass transition temperature of the resulting copolymers. The formation of polystyrene-co-poly(ethyl acrylate) was characterized by Fourier Transform Infra Red and Differential Scanning Calorimetry and the results showed that the formation of two homopolymers did not appeared."

"Kopolimer blok merupakan salah satu bentuk polimer yang molekulnya terdiri dari dua macam atau lebih monomer yang berbeda yang terikat secara kovalen. Pada penelitian ini akan disintesis kopolimer polistirena-blok-poli(butil akrilat) melalui salah satu metode polimerisasi radikal bebas terkontrol yaitu teknik Atom Transfer Radical Polymerization (ATRP) dan melihat pengaruh konsentrasi katalis dan monomer pada pembentukan kopolimer blok. Variasi konsentrasi katalis dan monomer dilakukan guna mencari komposisi terbaik dalam mencapai kondisi optimum. Kopolimer polistirena-blok-poli(butil akrilat) telah berhasil disintesis melalui teknik ATRP. Parameter keberhasilan dilihat dari berbagai macam hasil karakterisasi seperti FTIR, DSC, dan 1H-NMR. Kondisi optimum yang diperoleh dari perlakuan variasi konsentrasi katalis pada makroinisiator polistirena adalah pada saat konsentrasi katalis 0,2%, dengan indeks polidispersitasnya yang relatif kecil yaitu sebesar 1,16. Penambahan variasi monomer pada kopolimer blok tidak menunjukkan hasil yang signifikan, hal ini dilihat dari sifat termal dari kopolimer yang disintesis.

---

Block copolymer is one of polymer types, whose the molecules consist of two kinds or more different monomers that covalently bonded. In this study, polystyrene-block-poly (butyl acrylate) was synthesized via controlled radical polymerization method, namely Atom Transfer Radical polymerization (ATRP). The effect of addition of catalyst and also the monomer concentration on the formation of block copolymers were also studied. Variations of the concentration of catalyst and monomer composition was done in order to find the optimum condition. Polystyrene-block-poly (butyl acrylate) has been successfully synthesized by ATRP method. The success was seen from a variety of characterization such as FTIR, DSC, and 1H-NMR. The optimum conditions were obtained at 0.2% catalyst concentration, with polydispersity index was 1.16. The addition of different monomer concentration on the formation of block copolymer did not show significant results, it can be seen from the thermal properties of the synthesized copolymers."

"Dalam penelitian ini, dilakukan sintesis homopolimer poli(n-butil akrilat) (PnBA) menggunakan metode atom transfer radical polymerization (ATRP) dengan memvariasikan waktu reaksi, suhu reaksi, konsentrasi katalis CuBr, dan konsentrasi monomer n-butil akrilat (nBA) untuk mengetahui pengaruhnya terhadap persen konversi, berat molekul, dan indeks polidispersitas (PDI) dari PnBA yang dihasilkan. Inisiator yang digunakan adalah etil-2-bromoisobutirat (EBiB), sedangkan CuBr digunakan sebagai katalis yang membentuk kompleks dengan ligan 1,1,4,7,7-pentametildietilentriamin (PMDETA). Dari hasil penelitian ini, diperoleh komposisi yang paling optimal untuk membuat PnBA adalah dengan perbandingan monomer (M): katalis (C): ligan (L): inisiator (I) = 100:1:1:1 (%mol), waktu reaksi 6 jam, dan suhu reaksi 110°C, yang mana menghasilkan persen konversi mencapai 97,2%. Untuk membuktikan bahwa produk PnBA telah terbentuk, dilakukan karakterisasi dengan menggunakan instrumen fourier transform infra-red (FTIR), differential scanningcalorimetry (DSC), dan gel permeation chromatography (GPC). Hasil karakterisasi dengan menggunakan FTIR membuktikan bahwa tidak ada lagi ikatan rangkap C=C pada spektrum produk PnBA. Berdasarkan analisis termal menggunakan DSC, diperoleh temperatur transisi gelas (Tg) produk PnBA adalah -64,46°C. Pada hasil karakterisasi dengan menggunakan GPC, diperoleh nilai berat rata-rata berat molekul (Mw) sebesar 14.756 g/mol, jumlah rata-rata berat molekul (Mn) sebesar 2.516 g/mol, dan PDI sebesar 5,86.

---

In this research, homopolymer poly(n-butyl acrylate) is synthesized by using atom transfer radical polymerization (ATRP) method with variation of reaction time, reaction temperature, concentration of CuBr catalyst, and concentration of n-butyl acrylate (nBA) monomer for understanding the influence to the result of percent conversion, molecular weight, and polydispersity index (PDI) of PnBA. Initiator that used is ethyl-2-bromoisobutyrate (EBiB), whereas CuBr is used as catalyst that form complex with ligand 1,1,4,7,7-pentamethyldiethylenetriamine (PMDETA). From the result of this research, the most optimal composition to make PnBA is with ratio of monomer (M): catalyst (C): ligand (L): initiator (I) = 100:1:1:1 (%mol), 6 hours of reaction time, and at 110°C reaction temperature, which is resulting percent conversion up to 97,2%. To prove that PnBA product is formed, characterization is done by using instruments fourier transform infra-red (FTIR), differential scanning calorimetry (DSC), and gel permeation chromatography (GPC). The result of characterization using FTIR proves that the double bond C=C is not exist in PnBA product spectrum. Based on the thermal analysis using DSC, the glass transition temperature of PnBA product is -64,46°C. In the result of characterization using GPC, the weight of molecular weight average (Mw) is 14.756 g/mol, the number of molecular weight average (Mn) is 2.516 g/mol, and PDI is 5,86."

"PMMA is one of the main raw materials for the injection molding process in the lens industries. Since this process requires extremely careful techniques to obtain lens with the best quality, it leads to a high rate of product rejection. These rejected products do not only pose an issue for the industrial environment and require storage space,their price also falls significantly. Among the solutions to this problem is to reuse the rejected products as substitute materials for the manufacture of another product?s part such as lamp holders. This process reuses rejected PMMAcontaining products in the ABS base polymer industries so as to generate PMMA-containing products with better physical properties. In this experiment, 10 to 40 % (w/w) of rejected PMMA was blended with ABS resins. Themonomer content in the ABS resins was analyzed by NMR. Moreover, the mechanical, thermal, and morphological properties of the blended products were also examined. The NMR analysis showed that the resin contained 21.6 % butadiene monomer, in which its value was higher than the value required for materials with high-impact classapplication. The blend of resins and rejected PMMA (10-30% w/w) could increase the tensile strength value and decrease Izod impact strength and elongation percentage. The morphological analysis showed that this increased PMMA content may also result in widespread brittle areas. Since the blend was designed without compatibilizers,the DSC analysis indicated that the resulting blend in any ratios was not completely miscible. It was revealed that ABS resins containing 10% PMMA was the best blend for the polymer engineering application and this blend still had adequate properties and elastomer content required."