showing a typical XRD pattern of α-Al2O3. (b) TEM image of the α-Al2O3NPs obtained by removing the Fe matrix in the composites, revealing disperse equiaxed NPs. Scale bar, 50 nm. (c) Size distribution
lattice parameters; phase transformations; titanium alloys; X-ray analysis; atom probe tomography; characterization 1. Introduction β-Ti alloys are used in diverse industries because they can exhibit a wide range of mechanical properties through transforming the metastable body-centered cubic β phase ...
The morphology (size and shape) of synthesized BaFe12O19nanoparticles (BaFeNPs) and obtained conjugates was evaluated with transmission electron microscopy (TEM, Zeiss Libra 120 Plus, Stuttgart, Germany). The zeta potential (ζ) and hydrodynamic diameter of BaFeNPs, before and after every surface ...
Titanium dioxide (TiO2) is the most frequently used photocatalyst in photocatalytic studies as it is inexpensive, economical, easy to use, and environmentally friendly [13]. However, the use of TiO2 photocatalysts in photocatalytic studies has disadvantages, such as difficulty in separation, fast ...
The hexagonal close-packed structural α phase and body-centered cubic structural β phase exist together for titanium alloys. The contrasting crystal structure between α phase and β phase leads to different deformation behaviors under continuous stress loading [19]. Furthermore, it has been reported...
X-ray diffraction patterns were collected to further understand the crystal structure of the produced composites. The XRD pattern of the α-Fe2O3 annealed at 800 °C is shown in Figure 5a. The pattern consists of peaks at 24.42°, 33.40°, 35.86°, 41.12°, 49.68°, 54.32°, 57.86°, ...