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Ditemukan 6636 dokumen yang sesuai dengan query
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Mohd Idris Shah Ismail
Surface hardening of tool steel by plasma arc with multiple passes
"Plasma arc surface hardening is an alternative selective surface hardening method that is effective, economical and a promising technology in heat treatment industries. In the present work, an investigation was carried out to study the hardness distributions of multiple passes in
surface hardening of tool steel by plasma arc. The effects of multiple passes with overlapping and non-overlapping scans were investigated. The results show that the hardness is higher at centre of the plasma arc hardening tracks, and then decreasing in the region adjacent to each plasma arc track. It was found that the formation of hardened zone hardness in multiple passes non-overlapping scan is more uniform on the each scan when compared to the overlapping scan. However, hardness distribution of overlapping scan in width direction shows that it was more uniform compared with non-overlapping scan."
Depok: Faculty of Engineering, Universitas Indonesia, 2014
UI-IJTECH 5:1 (2014)
Artikel Jurnal  Universitas Indonesia Library
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Edwin Leopold Jim
Pengaruh Pemberian Cairan Albumin 5% terhadap Proses Kebocoran Plasma Transitosis pada Infeksi Dengue: Telaah pada Caveolin-1 dan Src PTK Pengaruh Obstructive Sleep Apnea (OSA) pada Peak Expiratory Flow Rate dan Kualitas Hidup Anak Asma: Kajian Khusus Sit = Effect of Albumin 5% Fluid Administration on Process of Transcytosis Plasma Leakage in Dengue Infection: Assessments on Caveolin-1 and Src PTK
"Kejadian infeksi dengue dewasa di Indonesia tergolong tinggi. Komplikasinya adalah sindrom renjatan dengue (SRD) akibat kebocoran plasma. Untuk mengatasi kebocoran plasma, WHO menganjurkan pemberian cairan kristaloid isotonik atau koloid seperti albumin 5%. Penelitian in vitro memperlihatkan ikatan albumin dengan reseptor glikoprotein 60 (gp60) di sel endotel menstimulasi ekspresi caveolin-1 dan Src protein tyrosine kinase (PTK) yang meningkatkan perpindahan albumin ke ekstravaskular, namun secara in vivo belum diketahui pengaruh cairan albumin terhadap proses transitosis dan caveolin-1 urin.
Penelitian ini merupakan open label randomized controlled trial sejak bulan November 2018 sampai dengan Januari 2020, di beberapa rumah sakit di Jakarta dan Banten. Dari 90 pasien, sebanyak 30 pasien memenuhi kriteria DD, dan 60 pasien memenuhi kriteria DBD. Alokasi secara acak dilakukan pada 60 pasien DBD, yang terdiri atas kelompok demam berdarah dengue yang diberikan ringer laktat (n = 30) dan kelompok demam berdarah dengue yang diberikan albumin (n = 30).
Pasien DBD yang diberikan albumin 5%, caveolin-1 plasma menurun pada jam ke-12 (p = 0,016); Src PTK lebih rendah pada jam ke-12 (p = 0,048); hemokonsentrasi lebih ringan pada jam ke-12 (p = 0,022) dan ke-24 (p = 0,001); kadar albumin serum lebih tinggi pada jam ke-12 (p = 0,037) dan ke-24 (p = 0,001); albumin urin lebih ringan pada jam ke-24 (p = 0,006) dan ke-48 (p = 0,005); dan lama rawat lebih pendek (p < 0,001) dibandingkan dengan ringer laktat.
Kesimpulan: pemberian cairan albumin 5% memperbaiki kebocoran plasma transitosis dan memperpendek lama rawat pasien DBD.
The incidence of adult dengue infection in Indonesia is quite high. The complication is dengue shock syndrome (DSS) due to plasma leakage. To overcome plasma leakage, WHO recommends giving isotonic crystalloid solutions or colloids such as albumin 5%. In vitro studies have shown that albumin binding to the glycoprotein receptor 60 (gp60) in endothelial cells stimulates the expression of caveolin-1 and Src protein tyrosine kinase (PTK) which increases albumin transfer to the extravascular space, but in vivo the effect of albumin fluid on the process of transitosis and urine caveolin-1 is not known.
This study is an open label randomized controlled trial from November 2018 to January 2020, in several hospitals in Jakarta and Banten. From 90 patients, 30 patients met the criteria for DD, and 60 patients met the criteria for DHF. Random allocation was made to 60 DHF patients, consisting of the dengue hemorrhagic fever group given Ringer's lactate (n = 30) and the dengue hemorrhagic fever group given albumin (n = 30).
Patients who were given albumin 5%, caveolin-1 plasma decreased at 12th hours (p = 0.016); Src PTK was lower at 12 hours (p = 0.048); milder hemoconcentration at 12th (p = 0.022) and 24th (p = 0.001) hour; serum albumin levels were higher at 12th (p = 0.037) and 24 hours (p = 0.001); urinary albumin was milder at 24th (p = 0.006) and 48th (p = 0.005); and shorter length of stay (p < 0.001) compared to ringer lactate.
Conclusion: administration of albumin 5% fluid improves transcytosis plasma leakage and shortens the length of stay of dengue infection patients."
Jakarta: Fakultas Kedokteran Universitas Indonesia, 2022
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UI - Disertasi Membership  Universitas Indonesia Library
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Naufal Rakha Pratama
Pengembangan baja Fe-20Cr-5Al-Ly2O3 (ODS) dengan penambahan variasi Ni 0,5%,1%, 1,5% dan 2% yang difabrikasi melalui metode ARC plasma sintering = Development of ODS steel Fe-20Cr-5Al -1Y2O3 with addition of Ni 0.5%, 1%, 1.5% and 2% which fabricated through arc plasma sintering (APS) method
"ABSTRAK
Digunakannya Arc Plasma Sintering APS karena metode sintering konvensional yang membutuhkan waktu lama. Bahan yang digunakan Fe-20Cr-5Al dengan penambahan partikel Yttrium 1 dan unsur Ni 0.5 ,1 ,1.5 , dan 2 . Tujuan dilakukan penelitian ini untuk melihat sifat mekanis dan struktur mikro baja Oxide Dispersion Strengthened ODS . Dalam penelitian ini dilakukan beberapa variabel penelitian terhadap proses milling, kompaksi dan dilakukan sintering menggunakan APS. Pembuatan sampel dilakukan dengan metode milling menggunakan HEM High Energy Milling . Didapatkan waktu milling optimum 8 jam. Proses selanjutnya dilakukan kompaksi dengan berbagai variasi dan didapatkan 20 Ton sebagai tekanan optimum. Setelah itu dilakukan sintering menggunakan metode Arc Plasma Sintering APS selama 4 menit. Sampel lalu dikarakterisasi menggunakan Optical Microscope dan Scanning Electron Microscope dan dilakukan penembakan dengan X-ray Diffraction Spectroscopy EDX , selanjutnya dilakukan pengujian kekerasan Rockwell E. Berdasarkan hasil penelitian yang dilakukan, diketahui bahwa hasil sintering sampel ODS-Ni ini masih terdapat porositas yang cukup banyak.. Berdasarkan hasil SEM dan EDX juga diketahui terdapat 3 buah daerah fasa yang terbentuk yaitu fasa berwarna abu Fe rich , abu terang Ni rich dan abu gelap Cr rich . Untuk pengujian kekerasan, dihasilkan nilai kekerasan untuk kadar Ni 0.5 , 1 , 1.5 dan 2 secara berturut-turut adalah 67.34, 64.36, 54.12, 64.82 HRE.
ABSTRACT
Arc Plasma Sintering is being used since conventional method takes longer time. The elements which had been used to make ODS steel are Fe 20Cr 5Al with 1 of yttrium particle and Ni with few of percentages 0.5 ,1 ,1.5 ,2 .The objective is to derive the good mechanical properties of ODS steel and the microstructure of these samples. We did some variation research like milling time, and compaction to get optimum result which are small particle or size with good homogenization, and for compaction to look for pressure which give minimum porosity. The result of variation resaearch are 8 hours for the optimum milling time and 20 ton for compaction pressures. Final step is using Arc Plasma Sintering. For the characterization process Optical Microscope and Scanning Electron Microscope are being used. Then, the X Ray Diffraction Spectroscopy EDX to get the information of chemical composition. For the hardness testing we used Rockwell E.The result shows that there are a lot of porosity and there are 3 regions of phase which are gray Fe rich , old gray Cr rich and bright gray Ni rich . The samples which undergo this process have different value in their hardness, this is the result of their hardness Ni 0.5 67.34 HRE Ni 1 64.36 HRE Ni1.5 ,54.12 HRE Ni 2 , 64.82 HRE."
2017
S67761
UI - Skripsi Membership  Universitas Indonesia Library
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effect of growth temperature and Mn Incorporation on GaN: Mn Thin Films grown by plasma-Assited MOCVD
"In this paper ,the growth of GaN:Mn thin films by plasma-assisted metalorganic chemical vapor deposition (PAMOCVD) method is reported ..."
ITJOSCI
Artikel Jurnal  Universitas Indonesia Library
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Kajian aglutinasi spermatozoa : sebaran anti aglutinin dan karakterisasi plasma yang di koleksidari epididymis dan ejakulat domba
"This study was designed to optimalize the use of opididymal or ejaculate sperm and plasma for in vitro fertilization,that sperm agglutination was found at preparation. The rate of sperm agglutination was calculated the head-to-head sperm agglutination that were incubated in KR-HEPES medium in 38.5 oC with 5% CO2 at 1,3,5 and 7 hours culture in vitro....."
Artikel Jurnal  Universitas Indonesia Library
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Rasydha Wahyu Budi
Studi Pengaruh Variasi Arus pada Proses Electroplating Nikel pada Lempeng Aluminium terhadap Struktur, Morfologi Permukaan, dan Sifat Elektrokimianya = Study of Effect of Current Density Variation on Crystal Structure, Surface Morphology and Electrochemical Property of Nickel Electroplating on Aluminium Substrate
"Paduan aluminium seperti 2024 aluminium alloy banyak digunakan pada industri pesawat sebagai bahan penguat struktur dan lapisan sayap pesawat. Tetapi paduan aluminium tersebut rentan terhadap korosi pada aging state tertentu, sehingga aluminium perlu diplating. Nikel merupakan salah satu logam yang sering digunakan sebagai material pelapis karena memiliki sifat ketahanan korosi yang baik, kekerasan dan juga dapat meningkatkan tampilan dari logam yang dilapisi. Dalam penelitian ini, dilakukan proses pelapisan Nikel pada lempeng Aluminium melalui metode electroplating dengan variasi rapat arus sebesar 3 mA/cm2, 10 mA/cm2, dan 25 mA/cm2. Karakterisasi XRD dan SEM dilakukan untuk melihat struktur kristal dan mikrostruktur lapisan nikel. Uji kekerasan dilakukan dengan metode Vickers. Uji sifat korosi dilakukan dengan metode LSV (Linear Sweep Voltamettry). Pola difraksi sinar-X menunjukkan peningkatan intensitas bidang (111) dan bidang (002) seiring meningkatnya rapat arus, sedangkan intensitas bidang (022) mengalami penurunan. Pengolahan data LSV menunjukkan sampel dengan arus 25 mA cm-2 memiliki daya tahan korosi yang paling baik yaitu sebesar 0,157 mm/tahun, tetapi memiliki tingkat kekerasan yang paling rendah sebesar 416,6 VH. Perubahan rapat arus ditemukan dapat mempengaruhi struktur kristal, morfologi permukaan dan sifat elektrokimia lapisan nikel yang terdeposisi.
Aluminium alloys such as 2024 aluminium alloys are widely used in aircraft industry as structural sthrength and skin for wings. However, those alloys are susceptible to corrosion at certain aging state, hence plating is necessary. Nickel is one of metal that widely used as coating material due to their high corrosion resistance property, hardness and enhancing the metal’s surfaces. In the current study, Nickel was successfully deposited on the Aluminium surface by electroplating method with various current density which are 3 mA/cm2, 10 mA/cm2, and 25 mA/cm2. XRD and SEM was performed to see the crystal structure and microstructure of the plated nickel coating. Hardness test was performed using Vikers method. The corrosion property was tested by LSV (Linear Sweep Voltamettry) method. The XRD patterns show increasing intentisy of (111) and (002) plane along the increase of current density, while the (022) intensity decreasing. The LSV shows that the sample with 25 mA cm-2 current density has the highest corrosion resistance with value of 0.157 mm/year, but it has the lowest hardness value at 416.6 VH. It was found that the variation of current density can affect crystal structure, surface morphology and electrochemical property of the deposited nickel coating."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2020
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UI - Skripsi Membership  Universitas Indonesia Library
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Fanny Arviani
Proses metalurgi serbuk Ti6Al4V melalui metode arc plasma sintering (APS) dan argon sintering dengan variasi waktu terhadap pembentukan lapisan permukaan TiO2 untuk aplikasi material implan = Process of Ti6Al4V powder metallurgy through Arc Plasma Sintering method (APS) and argon sintering with time variation on formation of TiO2 Surface layer for implant material applications
"ABSTRAK
Ti6Al4V merupakan material yang sangat reaktif terhadap atmosfer terutama pada temperatur tinggi. Pada saat proses sintering, reaktivitas titanium terhadap oksigen menyebabkan lapisan TiO2 kehilangan sifat proteksinya sehingga oksigen berdifusi ke dalam material. Hal tersebut dapat merugikan karena menurunkan kualitas ikatan material, menurunkan sifat mekanis, dan menyebabkan material brittle. Penelitian ini bertujuan untuk melindungi material dari pembentukan lapisan oksida (TiO2) pada permukaan paduan Ti6Al4V, melindungi dari difusi oksigen, dan mencegah difusi oksigen ke dalam material pada saat proses sintering dengan menggunakan teknologi baru yaitu Arc Plasma Sintering (APS). Teknologi sintering yang dilakukan menggunakan arus dan plasma sebagai sumber panas yang mampu melakukan proses sintering dengan waktu sangat singkat hanya dalam hitungan menit, dan konsumsi energi yang rendah. Dengan keunggulan yang dimiliki Arc Plasma Sintering (APS), diharapkan mampu melindungi Ti6Al4V dari oksidasi pada saat sintering. Sintering dilakukan pada arus 50 A dengan variasi waktu sintering selama 4 menit, 8 menit, dan12 menit. Hasil proses Arc Plasma Sintering (APS) dibandingkan dengan hasil sintering konvensional dengan atmosfer argon pada temperatur 1300oC selama 2 jam, 3 jam, dan 4 jam. Kemudian dilakukan karakterisasi material dengan menggunakan SEM-EDS dan XRD, serta pengujian densitas dan kekerasan vickers. Hasil penelitian ini menunjukkan bahwa dengan metode Arc Plasma Sintering (APS), material memiliki densitas dan kekerasan yang lebih baik dengan nilai densitas relatif mencapai 98,40% dan kekerasan sebesar 374,719 HV, serta ketebalan lapisan permukan TiO2 yang terus berkurang dari 16,405µm hingga 12,002µm dan tidak terjadi difusi oksigen ke dalam material jika dibandingkan dengan argon sintering.
ABSTRACT
Ti6Al4V is a material that is very reactive to the atmosphere, especially at high temperatures. During the sintering process, the reactivity of titanium to oxygen causes the TiO2 layer to lose its protective properties so that oxygen diffuses into the material. This can be detrimental because it decreases the quality of material bonds, decreases mechanical properties, and causes brittle material. This study aims to protect the material from the formation of an oxide layer (TiO2) on the Ti6Al4V alloy surface, protect it from diffusion of oxygen, and prevent the diffusion of oxygen into the material during the sintering process using the new technology, Arc Plasma Sintering (APS). Sintering technology is carried out using currents and plasma as a heat source that is capable of performing the sintering process with a very short time in just minutes, and low energy consumption. With the advantages of Arc Plasma Sintering (APS), it is expected to protect Ti6Al4V from oxidation during sintering. Sintering is carried out on 50 A currents with variations in sintering time for 4 minutes, 8 minutes and 12 minutes. The results of the Arc Plasma Sintering (APS) process were compared with the results of conventional sintering with an argon atmosphere at a temperature of 1300oC for 2 hours, 3 hours and 4 hours. Then the material characterization was performed using SEM-EDS and XRD, as well as testing Vickers density and hardness. The results of this study indicate that with the Arc Plasma Sintering (APS) method, the material has better density and hardness with a relative density value of 98.40% and hardness of 374,719 HV, and the thickness of the TiO2 surface layer continues to decrease from 16.405µm to 12,002 µm and there is no diffusion of oxygen into the material when compared to argon sintering.

 

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2019
S-Pdf
UI - Skripsi Membership  Universitas Indonesia Library
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Ridwan Setiawan
Pengaruh Temperatur dan Waktu Plasma Nitriding dan Plasma Nitrocarburizing Terhadap Kekerasan dan Ketahanan Aus Pada Baja JIS SKD61 = Effect of Plasma Nitriding and Plasma Nitrocarburizing Temperature and Time on Hardness and Wear Resistance of JIS SKD61 Steel
"Pada penelitian ini diamati hasil proses plasma nitriding dan plasma nitrocarburizing pada Baja SKD61 . Dilakukan pre-treatment sebelum dilakukan plasma. Nilai kekerasan optimum yang didapatkan setelah proses pre-treatment sebesar  504 HV. Kekerasan optimum yang didapat pada sampel plasma nitriding yaitu sebesar 603 HV yang dicapai pada temperatur 400oC dan 500oC selama 4 jam. Pada plasma nitrocarburizing kekerasan optimum yang didapat yaitu 830 HV dengan temperatur 500oC selama 4 jam. Hasil ketahanan aus atau specific wear optimum pada sampel plasma nitriding sebesar 0.19 x10-6mm2/kg yang dicapai pada temperatur 400oC dan 500oC selama 4 jam. Pada plasma nitrocarburizing ketahanan aus sebesar 0.11 x10-6mm2/kg dengan temperatur 400oC selama 4 jam dan 0.08 x10-6mm2/kg yang dicapai pada temperatur 500oC selama 4 jam. Hasil pengujian XRD menunjukan fasa yang terbentuk pada compound layer hasil plasma nitriding yaitu fasa iron nitride berupa FeNx, e-Fe2-3N dan g’-Fe4N. Sedangkan fasa yang terbentuk pada compound layer hasil plasma nitrocarburizing yaitu fasa iron nitrid dan juga fasa iron carbonitride FeN, FeNx, e-Fe2-3N atau e-Fe2-3 (N,C) dan Fe3C. Hasil penelitian yang telah dilakukan menunjukan bahwa plasma nitriding dan plasma nitrocarbuzing berhasil meningkatkan sifat mekanik berupa kekerasan dan ketahanan aus pada baja SKD61.
This study observed the results of plasma nitriding and plasma nitrocarburizing processes on SKD61 Steel. Pre-treatment was carried out before plasma was performed. The optimum hardness value obtained after the pre-treatment process was 504 HV. The optimum hardness obtained in the plasma nitriding sample is 603 HV with  temperatures of 400oC and 500oC for 4 hours. In plasma nitrocarburizing, the optimum hardness obtained is 830 HV at a temperature of 500oC for 4 hours. The optimum wear resistance or specific wear results on plasma nitriding samples are 0.19 x10-6mm2/kg with temperatures of 400oC and 500oC for 4 hours. In plasma nitrocarburizing, the wear resistance is 0.11 x10-6mm2/kg with temperatures of 400oC for 4 hours and 0.08 x10-6mm2/kg with temperature of 500oC for 4 hours. XRD test results show that the phase formed in the plasma nitriding compound layer is the iron nitride phase in the form of FeNx, e-Fe2-3N, and g'-Fe4N. Meanwhile, the phases formed in the compound layer resulting from plasma nitrocarburizing are iron nitride, iron carbonitride FeN, FeNx, e-Fe2-3N, or e-Fe2-3(N,C) and Fe3C . The results of the above research on plasma nitriding and plasma nitrocarburizing have improved the mechanical properties of hardness and wear resistance of SKD61 steel."
Depok: Fakultas Teknik Universitas Indonesia, 2022
T-pdf
UI - Tesis Membership  Universitas Indonesia Library
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Arzimovich, Lev A.
Elementary plasma physics
Waltham: Blaisdell, 1965
531.33 ARZ e
Buku Teks  Universitas Indonesia Library
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Brandstatter, J. J.
"An introduction to waves, rays and radiation in plasma media"
"New York: McGraw-Hill, 1963",
530.44 Bra i
Buku Teks  Universitas Indonesia Library
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