Hasil Pencarian  ::  Simpan CSV :: Kembali

"Nanokomposit polimer-clay merupakan bahan dengan matrik polimer yang diperkuat dengan nanofiller seperti lapisan silika. Pada penelitian ini pembuatan nanokomposit diawali dengan pembuatan masterbatch organo clay dengan penggunaan pelarut kemudian dicampur dengan polimer. Masterbatch dalam penelitian ini dihasilkan dari pencampuran Organo Layered Silicate (OLS), Ethylene Glycol, dan Polypropylene grafted maleic An hydride (PP-g-MA). Pembuatan nanokomposit polipropilen clay dilakukan di dalam mesin Rheomex (twin screw extruder) dengan mencampur masterbatch dan PP. Pengujian material yang dilakukan adalah pengujian XRD, TEM, HDT, dan uji tarik. Hasil yang diperoleh pada pengukuran HDT menunjukkan kenaikan sebesar 22 % pada komposit OLS Nanomer I.44PT dibanding dengan nilai HDT PP murni. Modulus elastisitas menunjukkan kenaikan sebesar 36 % pada komposit OLS DTDA dibanding dengan PP murni.......Polimer - clay nanocomposite is a material with a polimer matrix which is toughened by nanofiller such as silica particles. In this research,, nanocomposite was prepared from the production of organoclay masterbatch through a mixture of a solvent and a polymer. The masterbatch were produced from a mixture of organo layered silicate (OLS), Ethylene Glycol, and Polypropylene grafted maleic An hydride (PP-g-MA). The production of PP clay nanocomposite was done in Rheomex machine (twin screw extruder) by mixing the masterbatch and PP. The materials evaluated were using XRD, TEM, HDT, and tensile test. The results of HDT measurement showed that the OLS Nanomer composites were 22 % higher compared to the pristine PP. The modulus of elasticity of OLS ? DTDA composites increased 36 % compared to the pristine PP."

"Tesis ini meneliti sintesa organoclay dengan menggunakan berbagai surfaktan,Alkyl Benzyl Dimethyl Ammonium Chloride, Ammonium Lauryl Sulfate, Sodium Dodecyl Sulfate. Clay atau yang lebih dikenal dengan lempung yang berasal dari Garut, Tasikmalaya, Cibadak, Jawa Timur, Kalimantan dan Cina. Sifatnya yang khas seperti mampu mengembang diantara ruang galerinya, mampu mengalami pertukaran kation dan bersifat hydrophilic sangat menarik untuk diteliti. Perubahan dari hydrophilic menjadi hydrophobic akan sangat berguna didalam penelitian bahan - bahan baru pada jenis bahan - bahan masa depan. ......This thesis studies organoclay synthesized using various surfactant, Alkyl Benzyl Dimethyl Ammonium Chloride, Ammonium Lauryl Sulfate, Sodium Dodecyl Sulfate. Clay which is being known as "lempung" from Garut, Tasikmalaya, Cibadak, Jawa Timur, Kalimantan and China. Clay has swelling capability at inter gallery space, cation exchange ability and hydrophilic properties is very interesting to observe. Clay modification from hydrophilic into hydrophobic is very useful for materials research to discover future materials."

"Epoxy-organo clay nanocomposite materials are constructed from a polymer as a matrix and an organoclay as filler. Epoxy-organo clay nanocomposites have been synthesized using various curing agents. The aim of this research was to study the influence of the curing agent and the organoclay contents to the structure and mechanical properties of nanocomposites materials. Epoxy-organo clay nanocomposites were synthesized using cycloaliphatic amine as a curing agent and a montmorillonite organoclay (MMT) as filler through an in situ polymerization method. XRD and TEM technique provide more detail information to understand the structure that relates to the mechanical properties of the materials. Tensile test, compressive test and hardness test were conducted based on ASTM and JIS standards. The fracture surfaces after tensile tests were analyzed using SEM. The nanocomposite properties were compared to glass-fiber composites which were synthesized using wet-laminating method.It was found that the curing agent is influence to the nanocomposites structure which was shown by the change of d-spacing before and after the addition of the agent curing. XRD and TEM techniques showed that both intercalated and exfoliated structure have been formed. TEM image also exhibited that the number of intercalated structure was higher when the organoclay content was higher. It can be said that TEM techniques provides a better understanding of the nanocomposites structure and the number intercalated structure increase as the organoclay increases.The organoclay contain also influences to mechanical properties of nanocomposite materials. The addition of 10.5 wt.% organoclay improved the tensile modulus by 185% but and decreased tensile strength by 186% and 49%, and these values are lower of 36% and 90% compared to glass fiber composites. These decreases in the strength may be attributed to the fact that agglomerate and void was formed. From compression test, the addition of 3.1 wt.% organoclay demonstrated a 102% increase in compression strength and a 93% increase in load maximum compare to epoxy resin. But, that compression strength value lower of 11% compared to glass fiber composites. For the maximum load, the addition of 3.1 wt.% organoclay improved 246% compared to glass fiber composites. Addition of 7.3 wt.% organoclay demonstrated an increase of modulus of the epoxy resin by 93% and 2% compare to glass fiber composites. Meanwhile, the addition of 10.5% organoclay cause decreasing in yield compression up to 31%, but this higher value equal to 406% from is glass fiber composites. While that, result of hardness test do not show the make-up of value meaning in comparison with epoxy matrix."

"Pada penelitian ini, nanokomposit clay-epoxy menggunakan Organo clay Nanomer I30E, epoxy resin DER 331 dan curing agent Versamid 125 disintesa dengan metode in situ polimerization. Sebagai pembanding, komposit serat gelas-epoxy menggunakan serat gelas komersial dan epoxy resin dan curing agent yang sama disintesa dengan metode wet laminating.Karakterisasi struktur internal dan permukaan fracture, yang masing-masing menggunakan XRD (X-Ray Diffraction) dan SEM (Scanning Electron Microscope), menunjukkan bahwa nanokomposit telah berhasil disintesa. Nanokomposit memiliki struktur eksfoliasi pada komposisi clay <7.34 (% berat) dan struktur eksfoliasi dan interkalasi pada komposisi clay ≥ 7.34 (% berat). Nanokomposit dengan komposisi clay 2.10 (% berat) terdiri dari fasa epoxy dan fasa aglomerasi clay dan memiliki tanda fracture berbentuk kerucut.Hasil uji tarik, tekan dan kekerasan menunjukkan bahwa nanokomposit, yang disintesa dengan teknik pencampuran DM (Direct Mixing), tidak layak digunakan untuk aplikasi struktural pada pesawat terbang menggantikan komposit serat gelas-epoxy. Hasil uji tarik menunjukkan nanokomposit yang terbentuk memiliki perilaku yang sama dengan komposit particulate epoxy, yaitu tensile strength yang mengalami penurunan seiring dengan penambahan komposisi clay. Hasil uji tekan dan kekerasan masing-masing menunjukkan yield compression strength yang tidak mengalami perubahan dan kekerasan mengalami sedikit peningkatan, yang tidak tergantung pada komposisi clay, seiring dengan penambahan komposisi clay.......In this observation, clay-epoxy nanocomposites using Nanomer I30E organo clay, DER 331 epoxy resin and Versamid 125 curing agent were synthesized with an in-situ polimerization method. As comparison, fiberglass-epoxy composites using commercial fiber glass and the same epoxy resin and curing agent were synthesized with wet laminating method.Characterization of internal structure and fracture morphology, using XRD (X-Ray Diffraction) and SEM (Scanning Electron Microscope) respectively, showed that nanocomposites had been successfully synthesized. Nanocomposites owned an exfoliated structure at clay composition <7.34 (% weight) and a mixture of exfoliated and intercalated structure at clay composition >7.34 (% weight). The nanocomposite with clay composition 2.10 (% weight) consisted of epoxy fase and clay agglomerates fase and owned cone shape fracture markings.The results of tensile, compression and hardness testings showed that nanocomposites, synthesized using DM (Direct Mixing) dispersion technique, was found not suitable for structural application in aircraft replacing fiberglass-epoxy composite. The result of tensile testing showed nanocomposite formed owned similar behavior to particulateepoxy composite, where the tensile strength experienced decrease as clay composition was increased. The results of compression and hardness testings showed that yield compression strength didn’t experience change and hardness experienced few increases, which was not affected by clay’s composition, as clay's composition increased."