Abdullah A. Alazemi, Abdulaziz A. Alhassan, Osama M. Ibrahim
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Abstract
This study investigates the development and impact of thin coatings on the formation of a protective oxide-scale layer on FeCrAl metal fibers. The objective is to examine the effects of applying a thin coating layer using nano-oxide colloidal solutions on the oxidation rate and surface microstructure of 40 μm FeCrAl metal fibers. Two nano-oxide particles dispersed in water-based solutions were considered: (1) Aluminum hydroxide oxide (AlOOH) with nanoparticle sizes ranging from 10 to 45 nm, and (2) Zirconium oxide (ZrO2) with nanoparticle sizes smaller than 100 nm. The samples' weight gain and oxidation rate were measured using Thermo-Gravimetric Analysis (TGA) during a 4-h isothermal heating process at 800 °C. Additionally, a Scanning Electron Microscope (SEM) was used to analyze the surface and cross-sectional micromorphology, while X-ray diffraction (XRD) was employed to examine the crystalline structure on the surface of the FeCrAl fiber. TGA results indicated that the thin-coated metal fibers effectively reduced the oxidation rate compared to the uncoated baseline fibers. Specifically, the thin-coated samples with AlOOH and ZrO2 showed a 21 % and 42 % reduction in weight change after five isothermal heat treatment cycles, respectively, compared to the baseline metal fibers.
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