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"Ceramic nanocomposites have been found to have improved hardness, strength, toughness and creep resistance compared to conventional ceramic matrix composites. Ceramic nanocomposites reviews the structure and properties of these nanocomposites as well as manufacturing and applications. Part one looks at the properties of different ceramic nanocomposites, including thermal shock resistance, flame retardancy, magnetic and optical properties as well as failure mechanisms. Part two deals with the different types of ceramic nanocomposites, including the use of ceramic particles in metal matrix composites, carbon nanotube-reinforced glass-ceramic matrix composites, high temperature superconducting ceramic nanocomposites and ceramic particle nanofluids. Part three details the processing of nanocomposites, including the mechanochemical synthesis of metallic–ceramic composite powders, sintering of ultrafine and nanosized ceramic and metallic particles and the surface treatment of carbon nanotubes using plasma technology. Part four explores the applications of ceramic nanocomposites in such areas as energy production and the biomedical field."

"This book highlights the various types of polymer and nanocomposites that can be derived from biorenewable resources. It covers various aspects of biobased polymers and nanocomposites, including preparation, processing, properties, and performance, and the latest advances in these materials."

"Tesis ini merupakan bahasan hasil penelitian fabrikasi material nanokomposit dengan perbaikan pada proses fabrikasi. Penelitian ini bertujuan untuk meningkatkan sifat mekanik dan termal dari material nanokomposit nanoclaypolipropilena melalui peningkatan panjang screw dalam mesin twin screw extruder (TSE). Screw pendek yang digunakan memiliki panjang 300 mm, sedangkan screw panjang ukurannya 600 mm. Formulasi dari nanokomposit adalah 3,5 % nanoclay dalam matrik polipropilena dengan aditif kompatibiliser 5 % PP-g-MA. Hasil pengamatan struktur mikro nanokomposit menggunakan scanning electron microscope (SEM) dan scanning probe microscope (SPM) menunjukkan bahwa hasil fabrikasi nanokomposit menggunakan mesin pencampur TSE screw panjang memiliki sebaran/dispersi nanoclay yang lebih baik dibanding hasil fabrikasi menggunakan screw pendek. Dari hasil pengujian sifat mekanik nanokomposit yang dilakukan yang meliputi kekuatan tarik, modulus kekakuan, kekerasan, ketahanan aus dan ketangguhan menunjukkan bahwa nanokomposit hasil fabrikasi menggunakan screw panjang sifat mekaniknyalebih baik. Modulus kekakuan meningkat 34 %, ketangguhan dan kekerasan meningkat 1 %,. Dampak positif dari penelitian ini adalah meningkatnya sifat termal nanokomposit hasil fabrikasi menggunakan screw panjang dari pada hasil fabrikasi menggunakan screw pendek, sifat termal yang dianalisis meliputi: temperatur dekomposisi, temperatur defleksi, kecepatan bakar dan temperature leleh. Bila dibandingkan dengan polipropilena, maka nanokomposit memiliki peningkatan sifat sdiantaranya termal defleksi 7 %, termal dekomposisi 2 % dan ketahanan bakar 8 %.

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This thesis is a discussion of material manufacturing nanocomposites with improvements in the manufacturing process. This research aims is to improve the mechanical and thermal properties of nanoclay-polypropylene nanocomposites material through the longer screw in the twin screw extruder (TSE) mixer machine. Short screw used own length of 300 mm, while the other screw length of 600 mm in size. Formulation of nanocomposites is 3.5% nanoclay in polypropylene matrix with compatibilizer of 5 % PP-g-MA. The results of micro structure of nanocomposites observed by scanning electron microscope (SEM) and scanning probe microscope (SPM) showed that the nanocomposites manufacturing using a long screw found that the dispersion of nanoclay in nanocomposites is better than fabricated using a short screw. The mechanical testing of nanocomposites materials includes a tensile strength, elastic modulus, hardness, impact, and wear resistance the results showed that the nanocomposites manufacturing use longer screw have increased of mechanical properties, elastic modulus improve 34 %, impact charpy and hardness improve 1 %,. The side effect of this research is thermal properties of nanocomposites manufacturing use long screw was increased compared nanocomposites manufacturing using short screw. The thermal properties has analysed by flammability, thermal decomposition, thermal deflection, and melting temperature. Compare to polypropylene, the nanokomposites as manufacture has improve thermal deflection 7 %, thermal decomposition 2 % and flame retardant 8 %."

"Pencemaran lingkungan adalah salah satu masalah serius disebabkan pembuangan limbah berbahaya dan beracun dari industri–industri yang tidak teregulasi. Salah satu material yang banyak digunakan sebagai zat warna adalah sunset yellow pada industri tekstil yang berdampak buruk, menyebabkan risiko kesehatan seperti depresi, kerusakan ginjal, kerusakan hati, dan kanker. Pada penelitian ini telah dilakukan sintesis nanokomposit Nanochitosan/Fe₃O₄−SrSnO₃ untuk mendegradasi zat warna sunset yellow. Nankomposit Nanochitosan/Fe₃O₄−SrSnO₃ dikarakterisasi dengan Fourier–transform infrared spectroscopy (FTIR), ultraviolet–visible (UV–Vis), X–ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), high–resolution transmission electron microscopy (HRTEM), Brunauer–Emmet–Teller (BET) dan ultraviolet visible–diffuse reflectance (UV–DRS). Pengaruh Fe₃O₄ terhadap sisi aktif SrSnO₃ telah dipelajari dan energi celah pita dari SrSnO₃ menjadi 2,4 eV dengan komposisi Fe₃O₄/SrSnO₃ (3:1) dengan persen degradasi sebesar 88,45% . Nanochitosan ditambahkan sebagai support meningkatkan aktivitas dari nanokomposit Fe₃O₄−SrSnO₃ dengan persen dgradasi 97,42%. Nanokomposit yang optimal yang digunakan untuk analisis kinetika reaksi dan isoterm adsorpsi adalah dengan kondisi massa 0,04 gram, pH 10, dan waktu selama 75 menit. Kinetika reaksi mengikuti psuedo first order dengan konstanta laju reaksi 0,058 dan sesuai dengan isoterm adsorpsi Langmuir

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Environmental pollution is one of the most serious problems caused by the disposal of hazardous and toxic waste from unregulated industries. One material that is widely used as a dye is sunset yellow in the textile industry which has adverse effects, causing health risks such as depression, kidney damage, liver damage, and cancer. In this study, Nanochitosan/ Fe₃O₄−SrSnO₃ nanocomposite has been synthesized to degrade sunset yellow dye. Nanochitosan/ Fe₃O₄−SrSnO₃ nanocomposites were characterized by Fourier-transform infrared spectroscopy (FTIR), ultraviolet-visible (UV-Vis), X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), high-resolution transmission electron microscopy (HRTEM), Brunauer-Emmet-Teller (BET) and ultraviolet visible-diffuse reflectance (UV-DRS). The effect of Fe3O4 on the active side of SrSnO₃ was studied and the band gap energy of SrSnO₃ became 2.4 eV with Fe₃O₄/SrSnO₃ composition (3:1) with a percent degradation of 88.45%. Nanochitosan added as support increases the activity of Fe₃O₄−SrSnO₃ nanocomposite with 97.42% degradation percent. The optimal nanocomposite used for the analysis of reaction kinetics and adsorption isotherms was with a mass condition of 0.04 grams, pH 10, and time for 75 minutes. The reaction kinetics followed first order psuedo with a reaction rate constant of 0.058 and fit the Langmuir adsorption isotherm."

"Salah satu bagian krusial pada investment casting ialah pembuatan cetakan keramik. Permasalahan yang terdapat pada cetakan keramik antara lain seringnya terjadi kegagalan saat proses penghilangan lilin, permeabilitas cetakan yang kurang, dan lamanya proses pengeringan lapisan slurry keramik. Untuk itu dilakukan penelitian pengaruh penambahan serat nilon (0, 10, 20 dan 30 gr/l) kedalam slurry cetakan keramik dengan tujuan mengetahui karakteristik cetakan dan produk cor akibat penambahan nilon pada slurry cetakan keramik. Karakterisasi pada sampel keramik berupa pengujian 3-point bending, sudut, porositas dan pengamatan SEM. Untuk produk cor sudu turbin, digunakan paduan Al - 9 wt.% Zn – 4 wt.% Mg – 3 wt.% Cu menggunakan cetakan keramik 20 gr/l nilon. Karakteristik produk cor berupa pengujian kekerasan dan pengamatan foto mikro serta SEM.Dari hasil pengujian didapat bahwa penambahan nilon akan meningkatkan ketebalan terutama pada bagian sudut cetakan keramik dan juga porositas pada cetakan keramik, sampel yang tidak diberi tambahan nilon (0 gr/l) memiliki kekuatan yang lebih baik dibandingkan sampel yang diberi tambahan nilon (10, 20 dan 30 gr/l) baik itu pada bagian rata (flat) maupun pada bagian sudut pada sebelum maupun sesudah pembakaran. Pada produk cor, nilai kekerasan menggunakan cetakan keramik berpenguat nilon lebih rendah dibanding tak berpenguat nilon dikarenakan kehadiran porositas pada produk cor.

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One of crucial part in investment casting is production of ceramic mould. The problems are found in the ceramic mould such us failure during wax removal, decrease of permeability and the long duration of drying process of the ceramic slurry coating. Following to this problems, the main discussion of this study was to analyse the effect of adding nylon fiber (0, 10, 20 and 30 gr/l) into ceramic slurry to the characteristics of mould and as cast product. Characterization of ceramic mould included 3-point bending testing, edge testing, porosity testing and SEM. For as cast product, the alloying element are Al – 9 wt.% Zn – 4 wt.% Mg – 3 wt.% Cu by ceramic mould with addition of 20 gr/l of nylon. Characterization of as cast product included hardness testing and observation of microstructure by optical microscope and SEM.

The results show that the addition of nylon increases the thickness of ceramic mould, mainly at the edges as well as increases the porosity. Samples with no addition of nylon (0 gr/l) have higher strength than samples with nylon (10, 20 and 30 gr/l) both on flat and edge for green and fired condition. The hardness of the as cast product made by using ceramic mould with the nylon addition, is lower. This is due to the presence of porosity in the product."

"Nanokomposit Perak, Titanium dioksida, dan Mangan (II,III) oksida (Ag/TiO2/Mn3O4) dengan berbagai rasio molar telah disintesis menggunakan metode hidrotermal. Pengukuran difraksi sinar-X (XRD) mengkonfirmasi struktur nanokomposit Ag/TiO2/Mn3O4 yang terdiri dari struktur kubik Ag, TiO2 anatase, dan Mn3O4 tetragonal. Rasio komposisi unsur nanokomposit Ag/TiO2/Mn3O4 diselidiki dengan fluoresensi sinar-X (XRF). Efek sinergis Ag, TiO2 dan Mn3O4 dapat meningkatkan efisiensi nanokomposit sebagai fotokatalis. Peningkatan efisiensi ditunjukkan dengan melebarnya rentang absorbansi pada hasil pengukuran UV-Vis Diffuse Reflectance. Pengukuran adsorpsi-desorpsi nitrogen menunjukkan bahwa penambahan geraham TiO2 mengakibatkan penurunan luas permukaan spesifik nanokomposit Ag/TiO2/Mn3O4, sedangkan hasil sebaliknya diberikan dengan penambahan geraham Mn3O4. Pada uji fotokatalitik, hasil terbaik ditunjukkan oleh nanokomposit Ag/TiO2/Mn3O4 dengan dominasi Mn3O4 untuk radiasi UV dan cahaya tampak. Pada kondisi optimum, nanokomposit Ag/TiO2/Mn3O4 mampu mendegradasi metilen biru hingga 91% dengan penyinaran selama 2 jam. Uji scavenger mengidentifikasi lubang sebagai spesies yang berkontribusi paling besar pada proses fotokatalitik ini. Uji reusabilitas dan stabilitas pada nanokomposit Ag/TiO2/Mn3O4 menunjukkan hasil positif.

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Silver, Titanium dioxide, and Manganese (II,III) oxide (Ag/TiO2/Mn3O4) nanocomposites with various molar ratios have been synthesized using the hydrothermal method. X-ray diffraction (XRD) measurements confirmed the structure of the Ag/TiO2/Mn3O4 nanocomposite consisting of a cubic structure of Ag, TiO2 anatase, and tetragonal Mn3O4. The elemental composition ratio of Ag/TiO2/Mn3O4 nanocomposite was investigated by X-ray fluorescence (XRF). The synergistic effect of Ag, TiO2 and Mn3O4 can increase the efficiency of nanocomposites as photocatalysts. The increase in efficiency is indicated by the widening of the absorbance range on the measurement results of UV-Vis Diffuse Reflectance. The nitrogen adsorption-desorption measurements showed that the addition of TiO2 molars resulted in a decrease in the specific surface area of ​​the Ag/TiO2/Mn3O4 nanocomposite, while the opposite result was given by the addition of Mn3O4 molars. In the photocatalytic test, the best results were shown by the Ag/TiO2/Mn3O4 nanocomposite with the dominance of Mn3O4 for UV radiation and visible light. Under optimum conditions, Ag/TiO2/Mn3O4 nanocomposite was able to degrade methylene blue up to 91% with irradiation for 2 hours. The scavenger test identified pits as the species that contributed most to this photocatalytic process. Reusability and stability tests on Ag/TiO2/Mn3O4 nanocomposites showed positive results."

"This book investigates the effect of sintering temperature on willemite based glass-ceramic doped with different content of Er2O3. It is the first to report research on producing willemite by using waste materials and using trivalent erbium (Er3+) as a dopant. This book provides a survey of the literature on glass and glass-ceramic, while comprehensive experiments and analysis have been performed on the material used. "

"Pada penelitian ini telah dilakukan sintesis nanokomposit nanochitosan/ZnO-CdO dengan nanochitosan sebagai support katalis dengan semikonduktor ZnO yang digabungkan dengan CdO yang dimanfaatkan untuk degradasi limbah zat warna methylene blue. Pada penelitian ini sintesis nanochitosan telah berhasil dilakukan dengan ukuran partikel sebesar 17,72 nm. Nanopartikel ZnO telah berhasil disintesis dengan ukuran partikel 30,65 nm dan energi band gap 3,17 eV. Nanopartikel CdO telah berhasil disintesis dengan ukuran partikel 23,14 nm dan energi band gap 2,13 eV. Komposit ZnO-CdO berhasil disintesis dengan energi band gap 2,42 eV, hal itu menunjukkan bahwa CdO dapat menurunkan energi band gap dari ZnO. Komposit ZnO-CdO yang disintesis memiliki luas permukaan 18,60 m2/g dengan analisis SEM berbentuk butiran tidak seragam. Nanokomposit nanochitosan/ZnO-CdO telah berhasil disintesis dengan ukuran kristal 20,82 nm, luas permukaan 40,34 m2/g, dan menggunakan TEM diperoleh ukuran rata-rata pertikel 23,97 nm. Nanokomposit nanochitosan/ZnO-CdO yang telah berhasil disintesis digunakan untuk fotokatalisis untuk mendegradasi zat warna methylene blue dan diperoleh persen degradasi 97,10%. Studi kinetika mengikuti kinetika orde satu dengan persamaan laju reaksi yang berarti laju reaksi bergantung pada konsentrasi methylene blue. Isoterm adsorpsi sesuai dengan isoterm Langmuir menunjukkan proses kemosorpsi yang mana proses degradasi zat warna methylene blue menggunakan nanokomposit nanochitosan/ZnO-CdO ini termasuk fotokatalisis. Berdasarkan hasil penelitian ini nanokomposit menggunakan support biopolimer seperti nanochitosan dengan ZnO-CdO memiliki potensi katalis yang baik untuk berbagai aplikasi yang ramah lingkungan.

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In this study, a nanochitosan based nanochitosan/ZnO-CdO nanocomposite was synthesized as a catalyst support with ZnO semiconductor combined with CdO which used for the degradation of methylene blue dye. In this study, nanochitosan was successfully synthesized with a particle of 17,72 nm. ZnO nanoparticle has been successfully synthesized with a particle size of 30,65 nm and band gap energy of 3,17 eV. CdO nanoparticle has been successfully synthesized with a particle size of 23,14 nm and band gap energy of 2,13 eV. ZnO-CdO composite was successfully synthesized with band gap energy of 2,42, it shows that CdO can reduce the band gap energy of ZnO. The ZnO-CdO composite obtaine a surface area of 18,60 m2/g by SEM analysis in the form of non-uniform grains. Nanochitosan/ZnO-CdO nanocomposite has been successfully synthesized with a crystal size of 20,82 nm, a surface area 40,34 m2/g, and using TEM an average particle size of 23,97 nm was obtained. The successfully synthesized nanochitosan/ZnO-CdO nanocomposite was used as a photocatalyst to degrade methylene blue dye, the optimum degradation percentage was 97,10%. In the study of kinetics following one order kinetic with the equation for the reaction rate is which means the reaction rate depends on the concentration of methylene blue dye. The study of adsorption isotherm according to Langmuir isotherm shows a chemosorption process in which the degradation process of methylene blue dye using nanochitosan/ZnO-CdO nanocomposite is photocatalytic. Based on the results of this study, nanocomposite using biopolymer support which nanochitosan have good catalyst potential for various environmentally friendly applications. "

"Material magnet permanen seperti heksaferit dapat dimodifikasi sifatnya menjadi material penyerap radar dengan cara mensubstitusi parsial ion-ion besinya dengan ion lain untuk menurunkan medan koersivitasnya (Hc) tanpa penurunan magnetisasi remanen (Mr) yang signifikan. Material heksaferit yang banyak digunakan umumnya berupa barium heksaferit (BaFe12O19) dan stronsium heksaferit (SrFe12O19) yang memiliki karakteristik magnetik yang hampir sama. Penelitian terbaru menunjukkan bahwa substitusi barium heksaferit dengan timah (Sn) pada BaFe12-xInxO19 dengan x = 0,35 mampu menghasilkan penurunan koersivitas hingga 83% tetapi juga secara signifikan menurunkan remanen. Sementara itu, substitusi stronsium heksaferit dengan indium (In) pada SrFe12-xInxO19 untuk x = 0,1 mampu menurunkan koersivitas hingga 38% dengan hanya sedikit penurunan remanen. Pada penelitian ini, dipilih stronsium heksaferit dengan menggabungkan kedua variasi substitusi tersebut sehingga dihasilkan material SrFe11.55In0.1Sn0.35O19 (SHFInSn) melalui teknik powder metallurgy yang selanjutnya dikompositkan dengan material soft magnetic, FeCo, yang dihasilkan dari proses reduksi sehingga dihasilkan komposit dengan variasi perbandingan massa FeCo sebesar 10%, 30%, dan 50% yang memiliki koersivitas rendah tanpa penurunan remanen yang signifikan sehingga dapat diperoleh kemampuan absorpsi gelombang mikro yang lebih optimum. Hasil dari penelitian ini menunjukkan bahwa substitusi parsial stronsium heksaferit dengan indium (In) dan timah (Sn) terbukti menurunkan secara drastis koersivitas dan meningkatkan remanen serta saturasi dengan Hc = 105,6 kA/m; Mr = 0,2837 T; dan Ms = 0,442 T. Untuk komposit SHFInSn/FeCo, variasi dengan karakteristik terbaik dimiliki oleh kandungan 10% FeCo yang memiliki nilai koersivitas sebesar 92,82 kA/m, remanen sebesar 0,323 T, dan saturasi sebesar 0,561 T. Meski begitu, nilai reflection loss komposit semakin besar seiring dengan meningkatnya konsentrasi FeCo dengan nilai tertinggi sebesar -19,5 dB pada variasi 50% FeCo sehingga mampu menyerap hingga 89,4% gelombang mikro.

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Permanent magnet materials like hexaferrite can have their properties modified to become radar absorbing materials by partially substituting their iron ions with other ions to lower their coercivity field (Hc) without a significant decrease in remanent magnetization (Mr). Commonly used hexaferrite materials are barium hexaferrite (BaFe12O19) and strontium hexaferrite (SrFe12O19) which have similar magnetic properties. Recent studies show that substituting barium hexaferrite with tin (Sn) on BaFe12-xInxO19 with x = 0.35 can produce a decrease in coercivity of up to 83% but also significantly lowers remanence. Meanwhile, substituting strontium hexaferrite with indium (In) on SrFe12-xInxO19 for x = 0.1 can lower coercivity by up to 38% with only a slight decrease in remanence. In this study, strontium hexaferrite was chosen by combining both substitution variations to produce SrFe11.55In0.1Sn0.35O19 (SHFInSn) material using powder metallurgy technique which was then composited with soft magnetic material, FeCo, that produced from the reduction process to produce composites with mass ratio variations of FeCo are 10%, 30%, and 50% which has low coercivity without significant decrease in remanence and also increases its saturation so that optimum microwave absorption capability can be obtained. The results of this study show that partial substitution of strontium hexaferrite with indium (In) and tin (Sn) has been proven to drastically reduce coercivity and increase remanence and saturation with Hc = 105,6 kA/m, Mr = 0,2837 T, and Ms = 0,442 T. For the SHFInSn/FeCo composite, the variation with the best characteristics is owned by 10% FeCo content which has a coercivity value of 92.82 kA/m, a remanence of 0.323 T, and a saturation of 0,561 T. However, the reflection loss value of the composite is greater as the FeCo concentration increases with the highest value of -19.5 dB at a variation of 50% FeCo so it can absorb up to 89.4% of microwaves."