Amorphous and nanocrystalline materials for applications as soft magnets
This review seeks to summarize the recent developments in the synthesis, structural
characterization, properties, and applications in the fields of amorphous, bulk amorphous …
characterization, properties, and applications in the fields of amorphous, bulk amorphous …
Finemet nanocrystalline soft magnetic alloy: Investigation of glass forming ability, crystallization mechanism, production techniques, magnetic softness and the effect of …
T Gheiratmand, HRM Hosseini - Journal of Magnetism and Magnetic …, 2016 - Elsevier
Finemet soft magnetic alloy has been in the focus of interest in the last years due to its high
saturation magnetization, high permeability and low core loss. The great quantity of papers …
saturation magnetization, high permeability and low core loss. The great quantity of papers …
Production of high silicon steel for electrical applications by thermomechanical processing
T Ros-Yañez, Y Houbaert, O Fischer… - Journal of materials …, 2003 - Elsevier
The objective of this work is to investigate a method by which high silicon alloys containing
up to 6.5% Si can be processed by rolling applying hot–cold working techniques. Alloys with …
up to 6.5% Si can be processed by rolling applying hot–cold working techniques. Alloys with …
Advances in the production of high-silicon electrical steel by thermomechanical processing and by immersion and diffusion annealing
T Ros-Yáñez, D Ruiz, J Barros, Y Houbaert - Journal of alloys and …, 2004 - Elsevier
Steel sheet with 6.5% Si is an excellent soft magnetic material, but its industrial production in
low thickness still remains problematic or expensive. Using an adequate thermomechanical …
low thickness still remains problematic or expensive. Using an adequate thermomechanical …
The origin of ferromagnetism in 57Fe ion-implanted semiconducting 6H-polytype silicon carbide
F Stromberg, W Keune, X Chen… - Journal of Physics …, 2006 - iopscience.iop.org
Semiconducting (mostly p-doped) single crystals of the 6H-polytype of α-SiC (0001) were
implanted with 57 Fe ions with a nominal dose of 1.0× 10 16, 2.0× 10 16, 3.0× 10 16 or 2.0× …
implanted with 57 Fe ions with a nominal dose of 1.0× 10 16, 2.0× 10 16, 3.0× 10 16 or 2.0× …
Structural and magnetic properties of metastable Fe1-xSix (0.15< x< 0.34) alloys prepared by a rapid-quenching technique
LK Varga, F Mazaleyrat, J Kovac… - Journal of Physics …, 2002 - iopscience.iop.org
Abstract Fe 1-x Si x (0.15< x< 0.375) alloys have been prepared by a rapid-quenching
technique. X-ray diffraction patterns show that these alloys consist of submicron grains …
technique. X-ray diffraction patterns show that these alloys consist of submicron grains …
The evolution of microstructure and magnetic properties of Fe–Si–Cr powders on ball-milling process
X Zhang, D Liang, X Wang, P Zhou - Journal of alloys and compounds, 2014 - Elsevier
Flake-shaped particles were fabricated from crushing ingots with ball milling method.
Scanning electron microscope (SEM), X-ray diffraction (XRD), vibrating samples …
Scanning electron microscope (SEM), X-ray diffraction (XRD), vibrating samples …
Diffusion in the D03-type intermetallic phase Fe3Si
A Gude, H Mehrer - Philosophical Magazine A, 1997 - Taylor & Francis
The diffusion of Fe and Ge in the D03 phase Fe3Si has been studied as a function of
temperature and composition using a tracer sectioning technique and the radioisotopes …
temperature and composition using a tracer sectioning technique and the radioisotopes …
Morphology of ordering Fe-Si alloys
Y Ustinovshikov, I Sapegina - Journal of materials science, 2004 - Springer
The microstructure of some Fe-Si alloys water-quenched from 700–1200° C and aged at
550–675° C for various times has been studied by means of transmission electron …
550–675° C for various times has been studied by means of transmission electron …
The Contribution of 57Fe Mössbauer Spectrometry to Investigate Magnetic Nanomaterials
JM Greneche - Mössbauer Spectroscopy: Tutorial Book, 2012 - Springer
Fe containing nanomaterials and nanoparticles are quite important because their unusual
physical properties make them excellent candidates for different applications. 57 Fe …
physical properties make them excellent candidates for different applications. 57 Fe …