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DeMeuse, Mark T.
"Polymer blends offer properties not easily obtained through the use of a single polymer, including the ability to withstand high temperatures. High temperature polymer blends outlines the characteristics, developments, and use of high temperature polymer blends.
The first chapter introduces high temperature polymer blends, their general principles, and thermodynamics. Further chapters go on to deal with the characterization of high temperature polymer blends for specific uses, such as fuel cells and aerospace applications. The book discusses different types of high temperature polymer blends, including liquid crystal polymers, polysulfones, and polybenzimidazole polymer blends and their commercial applications.
High temperature polymer blends provides a key reference for material scientists, polymer scientists, chemists, and plastic engineers, as well as academics in these fields."
Cambridge, UK: Woodhead, 2014
e20427039
eBooks  Universitas Indonesia Library
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Lai, George Y.
"George Lai?s 1990 book, High-Temperature Corrosion of Engineering Alloys, is recognized as authoritative and is frequently consulted and often cited by those in the industry. His new book, almost double in size with seven more chapters, addresses the new concerns, new technologies, and new materials available for those engaged in high-temperature applications. As we strive for energy efficiency, the realm of high-temperature environments is expanding and the need for information on high temperature materials applications was never greater.
In addition to extensive expansion on most of the content of the original book, new topics include erosion and erosion-corrosion, low NOx combustion in coal-fired boilers, fluidized bed combustion, and the special demands of waste-to-energy boilers, waste incinerators, and black liquor recovery boilers in the pulp and paper industry. The corrosion induced by liquid metals is discussed and protection options are presented. Hydrogen damage is characterized and solutions given."
Materials Park, Ohio: ASM International, 2007
e20451747
eBooks  Universitas Indonesia Library
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Muhammad Fadil Akbar
"Pembakaran sampah padat kota (MSW) menghasilkan abu dasar pembakaran (IBA), residu padat yang kaya akan logam dan dapat didaur ulang. Penelitian ini berfokus pada peningkatan pemulihan logam dari IBA melalui perlakuan suhu tinggi. IBA magnetik dikenakan proses termal menggunakan tungku induksi pada suhu 1600°C, dengan berbagai kombinasi karbon dan besi cor sebagai aditif. Material yang dihasilkan dianalisis untuk mengevaluasi fraksi slag dan logam, dengan fokus pada mengoptimalkan hasil logam. Hasil eksperimen menunjukkan bahwa penambahan karbon meningkatkan pembentukan slag, sementara besi cor mempromosikan pemulihan komponen logam. Analisis metalografi mengungkapkan fase slag yang berbeda dan komposisi unsur berdasarkan aditif yang digunakan. Fluoresensi sinar-X (XRF) dan mikroskop elektron pemindai (SEM) digunakan untuk menilai komposisi kimia dan struktur mikro dari sampel slag dan logam. Analisis neraca massa lebih lanjut mengonfirmasi pengaruh aditif terhadap efisiensi pemulihan logam. Penelitian ini menunjukkan potensi untuk mengoptimalkan pemulihan logam dari IBA, berkontribusi pada praktik pengelolaan sampah yang berkelanjutan dan konservasi sumber daya.

Incineration of municipal solid waste (MSW) produces incinerator bottom ash (IBA), a solid residue rich in metals that can be recycled. This study focuses on enhancing metal recovery from IBA through high-temperature treatment. Magnetic IBA was subjected to a thermal process using induction furnaces at 1600°C, with various combinations of carbon and cast iron as additives. The resulting materials were analyzed to evaluate slag and metallic fractions, with a focus on optimizing metal yield. The experimental results indicated that the addition of carbon increased slag formation, while cast iron promoted the recovery of metallic components. Metallographic analysis revealed distinct slag phases and elemental compositions based on the additives used. X-ray fluorescence (XRF) and scanning electron microscopy (SEM) were employed to assess the chemical composition and microstructures of both slag and metallic samples. Mass balance analysis further confirmed the influence of the additives on metal recovery efficiency. This research demonstrates the potential for optimizing metal recovery from IBA, contributing to sustainable waste management practices and resource conservation."
Depok: Fakultas Teknik Universitas Indonesia, 2024
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UI - Skripsi Membership  Universitas Indonesia Library
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"The high temperatures generated in gases by shock waves give rise to physical and chemical phenomena such as molecular vibrational excitation, dissociation, ionization, chemical reactions and inherently related radiation. In continuum regime, these processes start from the wave front, so that generally the gaseous media behind shock waves may be in a thermodynamic and chemical non-equilibrium state.
This book presents the state of knowledge of these phenomena. Thus, the thermodynamic properties of high temperature gases, including the plasma state are described, as well as the kinetics of the various chemical phenomena cited above. Numerous results of measurement and computation of vibrational relaxation times, dissociation and reaction rate constants are given, and various ionization and radiative mechanisms and processes are presented. The coupling between these different phenomena is taken into account as well as their interaction with the flow-field. Particular points such as the case of rarefied flows and the inside of the shock wave itself are also examined. Examples of specific non-equilibrium flows are given, generally corresponding to those encountered during spatial missions or in shock tube experiments.
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Berlin: [Springer, ], 2012
e20398357
eBooks  Universitas Indonesia Library
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Young, David J.
Amsterdam : Elsevier , 2016
620.161 7 YOU h
Buku Teks SO  Universitas Indonesia Library
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Mahfud Ibadi
"Roket adalah kendaraan peluncur yang mampu mengangkut muatan ke tujuan yang diinginkan. Nosel merupakan komponen struktural terberat, yaitu menyumbang sekitar 30 % dari berat keseluruhan struktur roket sehingga sangat terbuka kemungkinan untuk mereduksi beratnya, dalam mendesain nosel juga harus memperhatikan beban mekanik dan termal yang cukup tinggi akibat dari pembakaran propelan untuk menghasilkan gaya dorong (thrust) roket. Salah satu alternatif untuk mereduksi berat adalah penggunaan material Komposit Polimer Berpenguat Serat Karbon, untuk mengaplikasikan material komposit tersebut terhadap nozzle case, perlu dilakukan karakterisasi sifat-sifat mekanik. Salah satu pengujian yang paling sering dilakukan yaitu uji tarik (tensile test), pengujian ini memiliki fungsi untuk mendapatkan nilai kekuatan, modulus elastisitas, dan failure mode. Pengujian Tarik dilakukan melalui dua tahapan untuk menyeleksi material yang mampu menerima beban termal. Pengujian tarik tahap pertama dilakukan dengan rentang temperatur dari RT sampai 200°C menggunakan mesin Shimadzu AG-50KNX PLUS Machine untuk seleksi material antara komposit C/LY5052 dengan C/ARMC berdasarkan ketangguhan pada temperature yang diuji. Selanjutnya material yang terpilih diteruskan ke pengujian tahap dua, dimana material terpilih di uji Tarik pada rentang temperatur RT sampai 800°C dengan interval 100°C menggunakan mesin SCHENK TREBEL Machine. Hasil yang didapatkan pada penelitian ini, untuk gangguan mekanik pada nozzle case maksimum sebesar 7 MPa, beban mekanik ini sangat kecil jika dibandingkan dengan kekuatan tarik yang dimiliki komposit C/LY5052 dan C/ARMC, untuk beban termal pada Nozzle Case, pemanasan maksimum yang terjadi pada nozzle Case dengan rentang temperature 550ºC hingga 700°C, pada temperatur ini komposit C/LY5052 tidak bisa diterapkan karena hanya mampu bertahan sampai temperatur 200 ºC, hasil berbeda pada komposit C/ARMC pada saat rentang temperatur ini masih tangguh, maka dari hasil tersebut komposit C/ARMC dalam penelitian ini dapat dijadikan acuan sebagai alternatif material Nozzle Case. Namun ketika mendesain nozzle case dengan material komposit C/ARMC harus diperhatikan mode kegagalannya terutama mode kegagalan delaminasi.

A rocket is a launch vehicle capable of transporting payload to the desired destination. The nozzle is the heaviest structural component, which contributes about 30% of the total weight of the rocket structure so it is very possible to reduce the weight. In designing the nozzle, one must also pay attention to the mechanical and thermal loads that are quite high due to the combustion of the propellant to produce rocket thrust. One alternative to reduce weight is the use of Carbon Fiber Reinforced Polymer Composite materials, to apply these composite materials to the nozzle case, it is necessary to characterize the mechanical properties. One of the most frequently performed tests is the tensile test. This test has a function to obtain values for strength, modulus of elasticity, and failure mode. Tensile testing is carried out in two stages to select materials that are capable of receiving thermal loads. The first stage of the tensile test was carried out with a temperature range from RT to 200°C using the Shimadzu AG-50KNX PLUS Machine for material selection between C/LY5052 and C/ARMC composites based on toughness at the temperature tested. Then the selected material is continued to the second stage of testing, where the selected material is tested in Tensile at a temperature range of RT to 800°C with intervals of 100°C using the SCHENK TREBEL Machine. The results obtained in this study, for maximum mechanical disturbance in the nozzle case of 7 MPa, this mechanical load is very small when compared to the tensile strength of the C/LY5052 and C/ARMC composites, for the thermal load on the Nozzle Case, the maximum heating that occurs on the Case nozzle with a temperature range of 550ºC to 700°C, at this temperature the C/LY5052 composite cannot be applied because it can only survive up to a temperature of 200 ºC, the results are different for the C/ARMC composite when this temperature range is still tough, so from these results, The C/ARMC composite in this study can be used as a reference as an alternative nozzle case material. However, when designing the nozzle case with C/ARMC composite material, the failure mode must be considered, especially the delamination failure mode."
Depok: Fakultas Teknik Universitas Indonesia, 2022
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UI - Tesis Membership  Universitas Indonesia Library
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Manson, S.S.
"From concept to application, this book describes the method of strain-range partitioning for analyzing time-dependent fatigue. Creep (time-dependent) deformation is first introduced for monotonic and cyclic loading. Multiple chapters then discuss strain-range partitioning in details for multi-axial loading conditions and how different loading permutations can lead to different micro-mechanistic effects. Notably, the total-strain method of strain-range partitioning (SRP) is described, which is a methodology that sees use in several industries. Examples from aerospace illustrate applications, and methods for predicting time-dependent metal fatigue are critiqued."
Materials Park, OH: ASM International, 2009
e20442179
eBooks  Universitas Indonesia Library
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Boca Raton: CRC Press, Taylor & Francis Group, 2009
620.192 CON
Buku Teks SO  Universitas Indonesia Library
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Eva Lenna Juliana
"Salah satu metoda untuk menentukan keberadaan fosfat di lingkungan perairan adalah dengan pembuatan adsorben selektif Ion Imprinted Polymer menggunakan kitosan termodifikasi. Kitosan suksinat, fosfat, MBA (Metilen Bis Akrilamida) digunakan sebagai monomer, cetakan dan agen pengikat silang. Awalnya kitosan dimodifikasi membentuk kitosan suksinat dan ditambahkan ion besi, Fe(III) membentuk kompleks Fe(III) kitosan suksinat. Kemudian kompleks Fe(III) kitosan suksinat ditambahkan fosfat dan selanjutnya fosfat dikeluarkan dengan KOH sehingga membentuk rongga selektif untuk ion fosfat. Setelah rongga terbentuk, kompleks Fe(III) kitosan suksinat diikat silang dengan menggunakan MBA. Penyerapan fosfat dengan polimer yang telah dicetak dengan fosfat lebih tinggi bila dibandingkan dengan polimer tanpa dicetak dan kitosan. Penyerapan ion fosfat maksimum pada ion imprinted polymer dicapai saat 30 menit dengan kapasitas adsorpsi (Q) = 4,382.59 mg/g, pH 3 dengan Q = 4,806.74 mg/g dan konsentrasi 3-4 ppm dengan Q = 2,884.62-3,703.70 mg/g. Penyerapan fosfat pada ion imprinted polymer terganggu dengan adanya ion bikarbonat dengan Q = 1,205.27 mg/g sedangkan Q untuk penyerapan fosfat tanpa adanya gangguan ion (kontrol) sebesar 6,812.37 mg/g. Penyerapan Sodium Tripolifosfat (STPP) lebih kecil pada polimer yang dicetak dengan fosfat. Q untuk penyerapan STPP 2 ppm sebesar 1,670.35 mg/g sedangkan Q pada penyerapan fosfat 2 ppm sebesar 1,909.76 mg/g.

One method for determining the presence of phosphate within the waters was by making selective adsorbent ion imprinted polymer using modified chitosan. Chitosan succinate, phosphate, MBA (Methylene Bis Acrylamide) were used as a monomer, mold and crosslinking agent. Firstly, chitosan was modified to form chitosan succinate and added iron ions (III) to form complexes of Fe(III) chitosan succinate. Then the complex Fe(III) chitosan succinate was added with phosphate and then phosphate further removed with KOH to form a cavity for the adsorption phosphate ion selectively. Once the cavity was formed, the complex Fe(III) chitosan succinate was then crosslinked using MBA. Phosphate adsorption with polymers that have been imprinted with phosphate was higher when compared with non-imprinted polymer and chitosan. Maximum adsorption of phosphate ions on imprinted polymer was achieved after 30 minutes contact time with adsorption capacity (Q) 4,382.59 mg/g, pH 3 with Q = 4,806.74 mg/g and the concentration of 3-4 ppm with Q = 2,884.62-3,703.70 mg/g. The adsorption of phosphate on the imprinted polymer in the presence of bicarbonate ions as interference was by Q = 1,205.27 mg/g, whereas Q for the adsorption of phosphate ions in the absence of interference was (control) of 6,812.37 mg/g. Adsorption of Sodium tripolyphosphate (STPP) is smaller in the polymer imprinted with phosphate. Q for the absorption of 2 ppm STPP standar was 1,670.35 mg / g, while Q at 2 ppm of phosphate adsorption was 1,909.76 mg / g."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2013
S45078
UI - Skripsi Membership  Universitas Indonesia Library
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London : Blaisdell Pub., 1966
620.123 3 HUL c (1);620.123 3 HUL c (2)
Buku Teks SO  Universitas Indonesia Library
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