Ditapis dengan
New process of developing nanocrystalline FeCr for fuel cell application
The objectives of this study are to explore the high energy ball milling combined with ultrasonic treatment to develop smaller crystallite size, finer surface morphology, higher thermal stability and more homogenous nanocrystalline FesoCr20 alloys. The process that combined both is not hlly investigated. They are carried out by high energy ball milling with milling time of 60 h and ultrasonic t…
- Edisi
- Vol. 65
- ISBN/ISSN
- -
- Deskripsi Fisik
- -
- Judul Seri
- -
- No. Panggil
- 620.163 SAR n
Oxidation resistance of Fe80Cr20 alloys by rare earth element ion implantation
The oxidation behaviour of newly developed process of Fe80Cr20Fe80Cr20 alloy was studied as a function of temperature in the range 1173‐1273 K for up to 100 h in flowing air, which corresponds to the Solid Oxide Fuel Cell (SOFC) environment operating conditions. The effects of rare earth element implantation and depth profile on the oxidation behaviour of specimens were analyzed based on oxid…
- Edisi
- Vol. 1394
- ISBN/ISSN
- -
- Deskripsi Fisik
- -
- Judul Seri
- -
- No. Panggil
- 620.11 SAR o
Effect of nanocrystalline and Ti implantation on the oxidation behaviour of F…
The oxidation behaviour of developed Fe80Cr20 alloy and commercial ferritic steel at 1173 - 1373 K in air is studied. Effects of crystallite size and titanium implantation on the oxidation behaviour of specimens were analyzed based on oxide morphologies and microstructures. Oxide scales characterisations of specimen after oxidized were identified by X-ray diffraction (XRD). The surface morpholo…
- Edisi
- Vol. 474-476
- ISBN/ISSN
- -
- Deskripsi Fisik
- -
- Judul Seri
- -
- No. Panggil
- 620.11 SAR e
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