Abstract. Several samples of dusts from steel and coke plants (collected mostly with electro fi lters) were subjected to the investigation of content of mineral phases in their particles. Additionally, sample of bog iron ore and metallurgical slurry was studied. Next, the magnetic susceptibility of all the samples was determined, and investigations of iron-containing phases were performed using transmission Mössbauer spectrometry. The values of mass-specifi c magnetic susceptibility varied in a wide range: from 59 to above 7000 × 10 −8 m 3 kg −1 . The low values are determined for bog iron ore, metallurgical slurry, and coke dusts. The extremely high was obtained for metallurgical dusts. The Mössbauer spectra and X-ray diffraction patterns point to the presence of the following phases containing iron: hematite and oxidized magnetite (in coke and metallurgical dusts as well as metallurgical slurry), traces of magnetite fi ne grains fraction (in metallurgical dusts), amorphous glassy silicates with paramagnetic Fe 3+ and Fe 2+ ions, traces of pyrrhotite (in coke dusts), -Fe and nonstoichiometric wüstite (in metallurgical slurry), as well as ferrihydrite nanoparticles (in bog iron ore). For individual samples of metallurgical dusts, the relative contributions of Fe 2+/3+ ions in octahedral B sites and Fe 2+ ions in tetrahedral A sites in magnetite spinel structure differs considerably.
Abstract. The investigations of iron-containing phases existing in fl y ashes were performed using transmission Mössbauer spectrometry. The examined samples of fl y ashes were collected from different coal combustion systems, that is, stoker-fi red boiler in municipal heating plant and pulverized coal boiler in power plant. Several phases are identifi ed in the samples: iron oxides, paramagnetic aluminosilicate glass with Fe 3+ ions and Al 2 O 4 --type spinel with Fe 2+ ions. It was pointed out that proportions of contents of phases strongly depend not only on the combustion temperature but also on the way of ash collection.
Abstract. Raman spectroscopy as well as Mössbauer spectroscopy were applied in order to study the phase composition of iron nanowires and its changes, caused by annealing in a neutral atmosphere at several temperatures ranging from 200°C to 800°C. As-prepared nanowires were manufactured via a simple chemical reduction in an external magnetic fi eld. Both experimental techniques proved formation of the surface layer covered by crystalline iron oxides, with phase composition dependent on the annealing temperature (T a ). At higher T a , hematite was the dominant phase in the nanowires.
Iron speciation analysis of fly coal ashes was performed using transmision Mössbauer spectrometry as well as chemical methods. The investigated samples of ashes came from stoker-fired boiler and pulverized-fuel boiler (of significantly higher combustion temperature). The Mössbauer spectra show noticeable differences in iron-bearing phases content. In the first case aluminosilicate glass dominates, whereas in the second one-a spinel-type phase.
The detailed analysis of atomic and magnetic structure has been performed by Mössbauer spectroscopy for polycrystalline Fe80Ga20 films of different thickness ranging from 20 nm to 200 nm. The films were deposited on Si(100) substrate using dual sputtering and evaporation method. Obtained CEMS spectra have been fitted with several Gaussian distributions of hyperfine magnetic field. The results point to the domination of BCC disordered A2 phase and the absence of DO3 and L12 phases in the films. Both hyperfine parameters and lattice constant reveal anomaly for 40 nm thick sample -presumably due to the change of the internal stress. Spin texture evolves from in-plane to out-of-the-plane configuration with increasing thickness.
Amorphous and nanocrystalline FINEMET-type alloys with vanadium addition up to 7 at% were investigated by the Mössbauer spectroscopy and magnetic methods. The outcomes evidence alterations in grain structure, although the main effect is related to the changes in intergranular phase. This induces diminution of mean hyperfine field, saturation induction and Curie temperature as well as the increase in coercivity.PACS numbers: 75.50.-y, 76.80.+y 1. The subject and methods of the study Nanocrystalline FINEMET• R alloys obtained by controlled annealing of the amorphous precursor and composed of fine grains enclosed in an amorphous matrix are known as excellent soft magnetic materials [1,2]. In order to improve the magnetic properties, various modifications of chemical composition have been proposed for the last decade [3][4][5][6]. In this paper, the substitution of iron atoms by vanadium ones is considered. Previous X-ray diffraction (XRD) and transmission electron microscopy (TEM) studies indicate changes of local structure due to vanadium addition as well as preservation of the nanocrystalline structure with grains sizes of about 15 nm [7]. In this paper, the systematic Mössbauer study is presented, complemented with results of magnetic investigations.The series of Fe 73.5−x V x Cu 1 Nb 3 Si 13.5 B 9 ribbons (x = 1, 3, 5, 7) was manufactured by rapid quenching from the melt. Subsequent annealing for 1 h at (51)
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