61 to 70 of 4,316 Results
Nov 21, 2018 -
Pengaruh Variasi Temperatur Solution Treatment Terhadap Struktur Mikro Dan Kekuatan Paduan Ti-6Al-6NB Untuk Aplikasi Biomedis
JPEG Image - 29.9 KB -
MD5: 07c9a9f6ff7d831c783929a075d8bf61
Tabel 1. Komposisi Kimia Paduan Ti-6Al-6Nb |
Putrayasa, I NyAstawa, I Nyoman Gede Putrayasaoman Gede; Senopati, Galih; Sutowo, Cahya; Rokhmanto, Fendy; S., Sulistioso Giat; Sumirat, Iwan; Sujatno, Agus; Sugeng, Bambang, 2018, "Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering", https://hdl.handle.net/20.500.12690/RIN/FOBKIN, RIN Dataverse, V2
Telah dilakukan pelapisan TiN dengan metoda plasma sputtering pada prototipe Total Knee Replacement (TKR). Pada penelitian ini TiN dilapiskan pada seluruh permukaan prototipe knee cap (tempurung lutut) dan komponen tibial yang berbahan CoCrMo. Hasil yang didapat pada pengujian ke... |
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Nov 21, 2018 -
Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering
Adobe PDF - 484.3 KB -
MD5: 19a0b48aa8165ef5c2d258887d7734b3
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Nov 21, 2018 -
Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering
JPEG Image - 39.8 KB -
MD5: 6674f73b1001d373b4c1abb8540786b7
Gambar 2. Susunan perangkat pelapisan TiN |
Nov 21, 2018 -
Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering
JPEG Image - 35.0 KB -
MD5: 6aa97a23827e64811433b7f5481d0c97
Gambar 3. Gambar ptototipe TKR. Tanpa lapis TiN (a), Lapis TiN (b) |
Nov 21, 2018 -
Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering
JPEG Image - 21.1 KB -
MD5: e0e850d74bbd4df05e5bbb152bdae11e
Gambar 4. Ketebalan lapisan TiN |
Nov 21, 2018 -
Analisis Lapisan TiN Pada Prototype Total Knee Replacement (Tkr) Dengan Metoda Plasma Sputtering
JPEG Image - 41.5 KB -
MD5: 5da73002f22ccddf12a666d538a77729
Tabel 1. Sifat mekanik material implant (Ferdiansyah dkk 2016) |
Anwar, M. S.; Prifiharni, S.; Mabruri, Efendi, 2018, "Optimizing Heat Treatment Process of Fe-13Cr-3Mo-3Ni Martensitic Stainless of Steel", https://hdl.handle.net/20.500.12690/RIN/BBYMSX, RIN Dataverse, V2
The Fe-13Cr-3Mo-3Ni stainless steels are modified into martensitic stainless steelsfor steam turbine blades application. The working temperature of steam turbine was around600 – 700 °C. The improvement properties of turbine blade material is necessary to maintainsteam turbine wor... |
JPEG Image - 79.6 KB -
MD5: 024acb733a5eed5a2a7f00339fc09e82
Figure 1. Microstructure of Fe-13Cr-3Mo-3Ni
austenitizing at (a) 1000 °C, (b) 1050 °C, (c)
1100 °C followed by tempering at 600 °C, in
magnification of 200X |
JPEG Image - 87.0 KB -
MD5: 2a93c5b2b516703dba42d57f1d3dd489
Figure 2. The microstructure of Fe-13Cr-3Mo-
3Ni austenitizing at (a) 1000 °C, (b) 1050 °C, (c)
1100 °C followed by tempering at 650 °C, in
magnification of 200X |
