The authors have performed Ar+ broad ion beam sputtering of a polycrystalline Fe-Si-Al alloy at normal incidence at energies varying from 6 to 10 keV. Sputtering results in the formation of etch pits, which can be classified in three shapes: triangular, and square. As each grain of individual orientation exhibits a certain type of pattern, the etch pits were correlated with the crystal orientations by electron backscattered diffraction technique.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 812714Fracture experiments on a polycrystalline Fe-2.3mass%V-0.12mass%P alloy show that the fracture mode is directly related to the grain boundary segregation of phosphorus. Comparison of the experimental data with theoretical simulations showed that intergranular fracture spreads along those grain boundaries, which contain more than 17 at.% of segregated phosphorus.
B.06 Other
COBISS.SI-ID: 773802The adsorption of atomic Se on a Fe(1 1 0) surface is examined using the density functional theory (DFT). Selenium is adsorbed in high-symmetry adsorption sites: the -short and long-bridge, and atop sites at 1/2, 1/4, and 1 monolayer (ML) coverages. The long bridge (LB) site is found to be the most stable, followed by the short bridge (SB) and top sites (T).
COBISS.SI-ID: 854186
Fe-Si-Al alloy surfaces were subjected to Ar+ ion beam irradiation at 10 keV beam energy and off-normal sputtering conditions. The morphologies present were visualized by SEM and can be roughly divided into four classes: ripples oriented parallel to the ion beam direction, ripples oriented perpendicular to ion beam direction, smooth surfaces and rough faceted surfaces. EDS results show that individual grains are compositionally homogebeous, therefore, the different patterns originate from differences in crystal orientations.
B.06 Other
COBISS.SI-ID: 802730The ion slicing technique has been well known for producing samples for transmission electron microscopy (TEM) investigations. It will be shown that this method can also be used for producing different types of samples for micro-mechanical experiments.
F.01 Acquisition of new practical knowledge, information and skills
COBISS.SI-ID: 802474